id	sid	tid	token	lemma	pos
work_5ra3eporv5glfexqgreko6dnzy	1	1	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	1	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	1	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	1	4	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	5	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	6	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	1	8	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	1	9	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	1	10	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	1	11	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	12	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	1	13	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	14	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	15	1043	1043	CD
work_5ra3eporv5glfexqgreko6dnzy	1	16	Military	Military	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	17	Technical	Technical	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	18	College	College	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	19	Kobry	Kobry	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	20	El	El	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	21	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	1	22	Kobbah	Kobbah	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	23	Cairo	Cairo	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	24	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	1	25	Egypt	Egypt	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	26	10th	10th	NN
work_5ra3eporv5glfexqgreko6dnzy	1	27	International	International	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	28	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	29	On	on	IN
work_5ra3eporv5glfexqgreko6dnzy	1	30	Aerospace	Aerospace	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	31	Sciences	Sciences	NNPS
work_5ra3eporv5glfexqgreko6dnzy	1	32	&	&	CC
work_5ra3eporv5glfexqgreko6dnzy	1	33	Aviation	Aviation	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	34	Technology	Technology	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	35	OPTIMAL	OPTIMAL	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	36	LOAD	load	NN
work_5ra3eporv5glfexqgreko6dnzy	1	37	SHEDDING	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	1	38	FOR	for	IN
work_5ra3eporv5glfexqgreko6dnzy	1	39	MINIMUM	MINIMUM	NNS
work_5ra3eporv5glfexqgreko6dnzy	1	40	UNDER	under	IN
work_5ra3eporv5glfexqgreko6dnzy	1	41	FREQUENCY	FREQUENCY	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	42	USING	USING	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	43	EXPERT	EXPERT	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	44	SYSTEMS	SYSTEMS	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	45	EBTISAM	EBTISAM	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	46	MOSTAFA	MOSTAFA	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	47	SATED	sated	FW
work_5ra3eporv5glfexqgreko6dnzy	1	48	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	1	49	ABSTRACT	ABSTRACT	NNP
work_5ra3eporv5glfexqgreko6dnzy	1	50	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	1	51	under	under	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	52	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	1	53	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	1	54	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	1	55	due	due	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	56	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	1	57	disturbances	disturbance	NNS
work_5ra3eporv5glfexqgreko6dnzy	1	58	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	1	59	large	large	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	60	interconnected	interconnected	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	61	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	1	62	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	1	63	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	1	64	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	1	65	lead	lead	VB
work_5ra3eporv5glfexqgreko6dnzy	1	66	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	1	67	if	if	IN
work_5ra3eporv5glfexqgreko6dnzy	1	68	not	not	RB
work_5ra3eporv5glfexqgreko6dnzy	1	69	corrected	correct	VBN
work_5ra3eporv5glfexqgreko6dnzy	1	70	-to	-to	:
work_5ra3eporv5glfexqgreko6dnzy	1	71	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	1	72	extensive	extensive	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	73	serious	serious	JJ
work_5ra3eporv5glfexqgreko6dnzy	1	74	damage	damage	NN
work_5ra3eporv5glfexqgreko6dnzy	1	75	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	2	1	Disturbances	disturbance	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	2	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	2	3	large	large	JJ
work_5ra3eporv5glfexqgreko6dnzy	2	4	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	2	5	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	6	sometimes	sometimes	RB
work_5ra3eporv5glfexqgreko6dnzy	2	7	cause	cause	VBP
work_5ra3eporv5glfexqgreko6dnzy	2	8	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	2	9	interconnected	interconnect	VBN
work_5ra3eporv5glfexqgreko6dnzy	2	10	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	11	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	2	12	become	become	VB
work_5ra3eporv5glfexqgreko6dnzy	2	13	separated	separate	VBN
work_5ra3eporv5glfexqgreko6dnzy	2	14	into	into	IN
work_5ra3eporv5glfexqgreko6dnzy	2	15	isolated	isolated	JJ
work_5ra3eporv5glfexqgreko6dnzy	2	16	subsystems	subsystem	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	2	18	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	2	19	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	2	20	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	2	21	lead	lead	VB
work_5ra3eporv5glfexqgreko6dnzy	2	22	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	2	23	excess	excess	JJ
work_5ra3eporv5glfexqgreko6dnzy	2	24	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	2	25	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	2	26	however	however	RB
work_5ra3eporv5glfexqgreko6dnzy	2	27	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	2	28	overloads	overload	VBZ
work_5ra3eporv5glfexqgreko6dnzy	2	29	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	2	30	generating	generate	VBG
work_5ra3eporv5glfexqgreko6dnzy	2	31	units	unit	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	32	causing	cause	VBG
work_5ra3eporv5glfexqgreko6dnzy	2	33	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	2	34	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	2	35	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	2	36	drop	drop	VB
work_5ra3eporv5glfexqgreko6dnzy	2	37	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	2	38	levels	level	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	39	that	that	WDT
work_5ra3eporv5glfexqgreko6dnzy	2	40	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	2	41	cause	cause	VB
work_5ra3eporv5glfexqgreko6dnzy	2	42	permanent	permanent	JJ
work_5ra3eporv5glfexqgreko6dnzy	2	43	damage	damage	NN
work_5ra3eporv5glfexqgreko6dnzy	2	44	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	2	45	steam	steam	NN
work_5ra3eporv5glfexqgreko6dnzy	2	46	turbines	turbine	NNS
work_5ra3eporv5glfexqgreko6dnzy	2	47	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	3	1	Load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	3	2	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	3	3	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	3	4	often	often	RB
work_5ra3eporv5glfexqgreko6dnzy	3	5	applied	apply	VBN
work_5ra3eporv5glfexqgreko6dnzy	3	6	throughout	throughout	IN
work_5ra3eporv5glfexqgreko6dnzy	3	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	3	8	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	3	9	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	3	10	avoid	avoid	VB
work_5ra3eporv5glfexqgreko6dnzy	3	11	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	3	12	turbine	turbine	NN
work_5ra3eporv5glfexqgreko6dnzy	3	13	damage	damage	NN
work_5ra3eporv5glfexqgreko6dnzy	3	14	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	3	15	restoring	restore	VBG
work_5ra3eporv5glfexqgreko6dnzy	3	16	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	3	17	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	3	18	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	4	1	It	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	4	2	helps	help	VBZ
work_5ra3eporv5glfexqgreko6dnzy	4	3	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	4	4	restoring	restore	VBG
work_5ra3eporv5glfexqgreko6dnzy	4	5	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	4	6	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	4	7	appropriate	appropriate	JJ
work_5ra3eporv5glfexqgreko6dnzy	4	8	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	4	9	taking	take	VBG
work_5ra3eporv5glfexqgreko6dnzy	4	10	into	into	IN
work_5ra3eporv5glfexqgreko6dnzy	4	11	consideration	consideration	NN
work_5ra3eporv5glfexqgreko6dnzy	4	12	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	4	13	there	there	EX
work_5ra3eporv5glfexqgreko6dnzy	4	14	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	4	15	no	no	DT
work_5ra3eporv5glfexqgreko6dnzy	4	16	need	need	NN
work_5ra3eporv5glfexqgreko6dnzy	4	17	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	4	18	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	4	19	excessive	excessive	JJ
work_5ra3eporv5glfexqgreko6dnzy	4	20	amounts	amount	NNS
work_5ra3eporv5glfexqgreko6dnzy	4	21	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	4	22	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	4	23	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	5	1	So	so	RB
work_5ra3eporv5glfexqgreko6dnzy	5	2	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	5	3	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	5	4	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	5	5	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	5	6	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	5	7	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	5	8	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	5	9	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	5	10	needed	need	VBN
work_5ra3eporv5glfexqgreko6dnzy	5	11	which	which	WDT
work_5ra3eporv5glfexqgreko6dnzy	5	12	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	5	13	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	5	14	main	main	JJ
work_5ra3eporv5glfexqgreko6dnzy	5	15	aim	aim	NN
work_5ra3eporv5glfexqgreko6dnzy	5	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	5	17	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	5	18	paper	paper	NN
work_5ra3eporv5glfexqgreko6dnzy	5	19	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	5	20	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	5	21	help	help	NN
work_5ra3eporv5glfexqgreko6dnzy	5	22	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	5	23	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	5	24	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	5	25	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	5	26	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	6	1	This	this	DT
work_5ra3eporv5glfexqgreko6dnzy	6	2	paper	paper	NN
work_5ra3eporv5glfexqgreko6dnzy	6	3	treats	treat	VBZ
work_5ra3eporv5glfexqgreko6dnzy	6	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	6	5	under	under	JJ
work_5ra3eporv5glfexqgreko6dnzy	6	6	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	6	7	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	6	8	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	6	9	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	6	10	using	use	VBG
work_5ra3eporv5glfexqgreko6dnzy	6	11	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	6	12	adaptive	adaptive	JJ
work_5ra3eporv5glfexqgreko6dnzy	6	13	traditional	traditional	JJ
work_5ra3eporv5glfexqgreko6dnzy	6	14	method	method	NN
work_5ra3eporv5glfexqgreko6dnzy	6	15	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	6	16	setting	setting	NN
work_5ra3eporv5glfexqgreko6dnzy	6	17	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	6	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	6	19	under	under	JJ
work_5ra3eporv5glfexqgreko6dnzy	6	20	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	6	21	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	6	22	relays	relay	NNS
work_5ra3eporv5glfexqgreko6dnzy	6	23	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	7	1	And	and	CC
work_5ra3eporv5glfexqgreko6dnzy	7	2	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	7	3	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	7	4	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	7	5	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	7	6	then	then	RB
work_5ra3eporv5glfexqgreko6dnzy	7	7	suggested	suggest	VBN
work_5ra3eporv5glfexqgreko6dnzy	7	8	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	7	9	developed	develop	VBN
work_5ra3eporv5glfexqgreko6dnzy	7	10	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	7	11	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	7	12	perfect	perfect	JJ
work_5ra3eporv5glfexqgreko6dnzy	7	13	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	7	14	fast	fast	JJ
work_5ra3eporv5glfexqgreko6dnzy	7	15	method	method	NN
work_5ra3eporv5glfexqgreko6dnzy	7	16	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	7	17	accelerate	accelerate	VB
work_5ra3eporv5glfexqgreko6dnzy	7	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	7	19	optimal	optimal	JJ
work_5ra3eporv5glfexqgreko6dnzy	7	20	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	7	21	process	process	NN
work_5ra3eporv5glfexqgreko6dnzy	7	22	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	7	23	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	7	24	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	7	25	limit	limit	NN
work_5ra3eporv5glfexqgreko6dnzy	7	26	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	8	1	These	these	DT
work_5ra3eporv5glfexqgreko6dnzy	8	2	methods	method	NNS
work_5ra3eporv5glfexqgreko6dnzy	8	3	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	8	4	implemented	implement	VBN
work_5ra3eporv5glfexqgreko6dnzy	8	5	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	8	6	applied	apply	VBN
work_5ra3eporv5glfexqgreko6dnzy	8	7	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	8	8	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	8	9	simple	simple	JJ
work_5ra3eporv5glfexqgreko6dnzy	8	10	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	8	11	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	8	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	9	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	9	2	obtained	obtain	VBN
work_5ra3eporv5glfexqgreko6dnzy	9	3	results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	9	4	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	9	5	presented	present	VBN
work_5ra3eporv5glfexqgreko6dnzy	9	6	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	9	7	discussed	discuss	VBN
work_5ra3eporv5glfexqgreko6dnzy	9	8	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	9	9	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	9	10	comparison	comparison	NN
work_5ra3eporv5glfexqgreko6dnzy	9	11	between	between	IN
work_5ra3eporv5glfexqgreko6dnzy	9	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	9	13	traditional	traditional	JJ
work_5ra3eporv5glfexqgreko6dnzy	9	14	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	9	15	suggested	suggest	VBD
work_5ra3eporv5glfexqgreko6dnzy	9	16	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	9	17	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	9	18	methods	method	NNS
work_5ra3eporv5glfexqgreko6dnzy	9	19	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	10	1	KEYWORDS	KEYWORDS	NNP
work_5ra3eporv5glfexqgreko6dnzy	10	2	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	10	3	Under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	10	4	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	10	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	10	6	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	10	7	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	10	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	10	9	Power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	10	10	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	10	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	10	12	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	10	13	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	10	14	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	10	15	Minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	10	16	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	10	17	limit	limit	NN
work_5ra3eporv5glfexqgreko6dnzy	10	18	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	11	1	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	11	2	Associate	associate	JJ
work_5ra3eporv5glfexqgreko6dnzy	11	3	Professor	Professor	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	4	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	11	5	Electrical	Electrical	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	6	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	7	Engineering	Engineering	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	11	9	Faculty	Faculty	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	10	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	11	11	Engineering	Engineering	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	12	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	11	13	Shoubra	Shoubra	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	14	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	11	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	11	16	Zagazig	Zagazig	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	17	University	University	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	18	Proceedings	Proceedings	NNPS
work_5ra3eporv5glfexqgreko6dnzy	11	19	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	11	20	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	11	21	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	11	22	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	23	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	24	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	11	25	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	11	26	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	11	27	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	11	28	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	29	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	11	30	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	11	31	1E-1	1e-1	CD
work_5ra3eporv5glfexqgreko6dnzy	11	32	1044	1044	CD
work_5ra3eporv5glfexqgreko6dnzy	11	33	1.INTRODUCTION	1.introduction	CD
work_5ra3eporv5glfexqgreko6dnzy	11	34	Electrical	electrical	JJ
work_5ra3eporv5glfexqgreko6dnzy	11	35	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	11	36	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	11	37	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	11	38	always	always	RB
work_5ra3eporv5glfexqgreko6dnzy	11	39	subjected	subject	VBN
work_5ra3eporv5glfexqgreko6dnzy	11	40	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	11	41	experiencing	experience	VBG
work_5ra3eporv5glfexqgreko6dnzy	11	42	emergency	emergency	NN
work_5ra3eporv5glfexqgreko6dnzy	11	43	conditions	condition	NNS
work_5ra3eporv5glfexqgreko6dnzy	11	44	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	11	45	which	which	WDT
work_5ra3eporv5glfexqgreko6dnzy	11	46	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	11	47	result	result	VB
work_5ra3eporv5glfexqgreko6dnzy	11	48	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	11	49	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	11	50	mismatching	mismatching	NN
work_5ra3eporv5glfexqgreko6dnzy	11	51	between	between	IN
work_5ra3eporv5glfexqgreko6dnzy	11	52	generation	generation	NN
work_5ra3eporv5glfexqgreko6dnzy	11	53	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	11	54	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	11	55	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	12	1	This	this	DT
work_5ra3eporv5glfexqgreko6dnzy	12	2	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	12	3	lead	lead	VB
work_5ra3eporv5glfexqgreko6dnzy	12	4	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	12	5	isolated	isolated	JJ
work_5ra3eporv5glfexqgreko6dnzy	12	6	subsystems	subsystem	NNS
work_5ra3eporv5glfexqgreko6dnzy	12	7	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	12	8	either	either	CC
work_5ra3eporv5glfexqgreko6dnzy	12	9	over	over	IN
work_5ra3eporv5glfexqgreko6dnzy	12	10	or	or	CC
work_5ra3eporv5glfexqgreko6dnzy	12	11	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	12	12	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	12	13	conditions	condition	NNS
work_5ra3eporv5glfexqgreko6dnzy	12	14	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	13	1	These	these	DT
work_5ra3eporv5glfexqgreko6dnzy	13	2	subsystems	subsystem	NNS
work_5ra3eporv5glfexqgreko6dnzy	13	3	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	13	4	often	often	RB
work_5ra3eporv5glfexqgreko6dnzy	13	5	suffer	suffer	VBP
work_5ra3eporv5glfexqgreko6dnzy	13	6	insufficient	insufficient	JJ
work_5ra3eporv5glfexqgreko6dnzy	13	7	generating	generating	NN
work_5ra3eporv5glfexqgreko6dnzy	13	8	capacity	capacity	NN
work_5ra3eporv5glfexqgreko6dnzy	13	9	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	13	10	carry	carry	VB
work_5ra3eporv5glfexqgreko6dnzy	13	11	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	13	12	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	13	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	13	14	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	13	15	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	13	16	condition	condition	NN
work_5ra3eporv5glfexqgreko6dnzy	13	17	almost	almost	RB
work_5ra3eporv5glfexqgreko6dnzy	13	18	lead	lead	VBP
work_5ra3eporv5glfexqgreko6dnzy	13	19	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	13	20	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	13	21	decay	decay	NN
work_5ra3eporv5glfexqgreko6dnzy	13	22	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	13	23	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	13	24	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	13	25	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	13	26	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	13	27	collapse	collapse	VB
work_5ra3eporv5glfexqgreko6dnzy	13	28	within	within	IN
work_5ra3eporv5glfexqgreko6dnzy	13	29	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	13	30	short	short	JJ
work_5ra3eporv5glfexqgreko6dnzy	13	31	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	13	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	13	33	if	if	IN
work_5ra3eporv5glfexqgreko6dnzy	13	34	measures	measure	NNS
work_5ra3eporv5glfexqgreko6dnzy	13	35	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	13	36	not	not	RB
work_5ra3eporv5glfexqgreko6dnzy	13	37	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	13	38	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	13	39	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	13	40	restore	restore	VB
work_5ra3eporv5glfexqgreko6dnzy	13	41	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	13	42	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	13	43	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	13	44	generation	generation	NN
work_5ra3eporv5glfexqgreko6dnzy	13	45	balance	balance	NN
work_5ra3eporv5glfexqgreko6dnzy	13	46	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	13	47	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	13	48	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	13	49	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	14	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	14	2	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	14	3	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	14	4	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	14	5	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	14	6	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	14	7	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	14	8	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	14	9	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	14	10	has	have	VBZ
work_5ra3eporv5glfexqgreko6dnzy	14	11	been	be	VBN
work_5ra3eporv5glfexqgreko6dnzy	14	12	studied	study	VBN
work_5ra3eporv5glfexqgreko6dnzy	14	13	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	14	14	many	many	JJ
work_5ra3eporv5glfexqgreko6dnzy	14	15	years	year	NNS
work_5ra3eporv5glfexqgreko6dnzy	14	16	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	14	17	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	14	18	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	14	19	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	14	20	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	14	21	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	15	1	It	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	15	2	has	have	VBZ
work_5ra3eporv5glfexqgreko6dnzy	15	3	been	be	VBN
work_5ra3eporv5glfexqgreko6dnzy	15	4	noted	note	VBN
work_5ra3eporv5glfexqgreko6dnzy	15	5	through	through	IN
work_5ra3eporv5glfexqgreko6dnzy	15	6	these	these	DT
work_5ra3eporv5glfexqgreko6dnzy	15	7	studies	study	NNS
work_5ra3eporv5glfexqgreko6dnzy	15	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	15	9	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	15	10	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	15	11	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	15	12	plants	plant	NNS
work_5ra3eporv5glfexqgreko6dnzy	15	13	themselves	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	15	14	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	15	15	subject	subject	JJ
work_5ra3eporv5glfexqgreko6dnzy	15	16	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	15	17	failure	failure	NN
work_5ra3eporv5glfexqgreko6dnzy	15	18	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	15	19	low	low	JJ
work_5ra3eporv5glfexqgreko6dnzy	15	20	frequencies	frequency	NNS
work_5ra3eporv5glfexqgreko6dnzy	15	21	since	since	IN
work_5ra3eporv5glfexqgreko6dnzy	15	22	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	15	23	auxiliaries	auxiliary	NNS
work_5ra3eporv5glfexqgreko6dnzy	15	24	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	15	25	unable	unable	JJ
work_5ra3eporv5glfexqgreko6dnzy	15	26	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	15	27	maintain	maintain	VB
work_5ra3eporv5glfexqgreko6dnzy	15	28	normal	normal	JJ
work_5ra3eporv5glfexqgreko6dnzy	15	29	output	output	NN
work_5ra3eporv5glfexqgreko6dnzy	15	30	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	15	31	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	15	32	critical	critical	JJ
work_5ra3eporv5glfexqgreko6dnzy	15	33	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	15	34	being	be	VBG
work_5ra3eporv5glfexqgreko6dnzy	15	35	about	about	RB
work_5ra3eporv5glfexqgreko6dnzy	15	36	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	15	37	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	15	38	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	15	39	%	%	NN
work_5ra3eporv5glfexqgreko6dnzy	15	40	below	below	IN
work_5ra3eporv5glfexqgreko6dnzy	15	41	normal	normal	JJ
work_5ra3eporv5glfexqgreko6dnzy	15	42	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	15	43	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	15	44	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	15	45	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	15	46	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	16	1	Several	several	JJ
work_5ra3eporv5glfexqgreko6dnzy	16	2	treatments	treatment	NNS
work_5ra3eporv5glfexqgreko6dnzy	16	3	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	16	4	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	16	5	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	16	6	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	16	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	16	8	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	16	9	have	have	VBP
work_5ra3eporv5glfexqgreko6dnzy	16	10	been	be	VBN
work_5ra3eporv5glfexqgreko6dnzy	16	11	presented	present	VBN
work_5ra3eporv5glfexqgreko6dnzy	16	12	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	16	13	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	16	14	past	past	JJ
work_5ra3eporv5glfexqgreko6dnzy	16	15	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	16	16	6	6	CD
work_5ra3eporv5glfexqgreko6dnzy	16	17	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	16	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	16	19	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	16	20	7].To	7].to	CD
work_5ra3eporv5glfexqgreko6dnzy	16	21	maintain	maintain	VBP
work_5ra3eporv5glfexqgreko6dnzy	16	22	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	16	23	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	16	24	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	16	25	generation	generation	NN
work_5ra3eporv5glfexqgreko6dnzy	16	26	balance	balance	NN
work_5ra3eporv5glfexqgreko6dnzy	16	27	during	during	IN
work_5ra3eporv5glfexqgreko6dnzy	16	28	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	16	29	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	16	30	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	16	31	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	16	32	practically	practically	RB
work_5ra3eporv5glfexqgreko6dnzy	16	33	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	16	34	automatic	automatic	JJ
work_5ra3eporv5glfexqgreko6dnzy	16	35	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	16	36	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	16	37	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	16	38	relays	relay	NNS
work_5ra3eporv5glfexqgreko6dnzy	16	39	were	be	VBD
work_5ra3eporv5glfexqgreko6dnzy	16	40	used	use	VBN
work_5ra3eporv5glfexqgreko6dnzy	16	41	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	16	42	drop	drop	VB
work_5ra3eporv5glfexqgreko6dnzy	16	43	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	16	44	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	16	45	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	17	1	In	in	IN
work_5ra3eporv5glfexqgreko6dnzy	17	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	17	3	past	past	NN
work_5ra3eporv5glfexqgreko6dnzy	17	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	17	5	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	17	6	engineers	engineer	NNS
work_5ra3eporv5glfexqgreko6dnzy	17	7	began	begin	VBD
work_5ra3eporv5glfexqgreko6dnzy	17	8	investigating	investigate	VBG
work_5ra3eporv5glfexqgreko6dnzy	17	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	17	10	need	need	NN
work_5ra3eporv5glfexqgreko6dnzy	17	11	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	17	12	turbine	turbine	NN
work_5ra3eporv5glfexqgreko6dnzy	17	13	protection	protection	NN
work_5ra3eporv5glfexqgreko6dnzy	17	14	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	17	15	initiated	initiate	VBD
work_5ra3eporv5glfexqgreko6dnzy	17	16	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	17	17	off-	off-	JJ
work_5ra3eporv5glfexqgreko6dnzy	17	18	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	17	19	study	study	NN
work_5ra3eporv5glfexqgreko6dnzy	17	20	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	17	21	review	review	VB
work_5ra3eporv5glfexqgreko6dnzy	17	22	all	all	DT
work_5ra3eporv5glfexqgreko6dnzy	17	23	aspects	aspect	NNS
work_5ra3eporv5glfexqgreko6dnzy	17	24	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	17	25	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	17	26	abnormal	abnormal	JJ
work_5ra3eporv5glfexqgreko6dnzy	17	27	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	17	28	protection	protection	NN
work_5ra3eporv5glfexqgreko6dnzy	17	29	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	17	30	7	7	CD
work_5ra3eporv5glfexqgreko6dnzy	17	31	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	17	32	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	18	1	In	in	IN
work_5ra3eporv5glfexqgreko6dnzy	18	2	recent	recent	JJ
work_5ra3eporv5glfexqgreko6dnzy	18	3	years	year	NNS
work_5ra3eporv5glfexqgreko6dnzy	18	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	18	5	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	18	6	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	18	7	have	have	VBP
work_5ra3eporv5glfexqgreko6dnzy	18	8	been	be	VBN
work_5ra3eporv5glfexqgreko6dnzy	18	9	used	use	VBN
work_5ra3eporv5glfexqgreko6dnzy	18	10	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	18	11	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	18	12	inclusion	inclusion	NN
work_5ra3eporv5glfexqgreko6dnzy	18	13	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	18	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	18	15	operators	operator	NNS
work_5ra3eporv5glfexqgreko6dnzy	18	16	experience	experience	NN
work_5ra3eporv5glfexqgreko6dnzy	18	17	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	18	18	some	some	DT
work_5ra3eporv5glfexqgreko6dnzy	18	19	areas	area	NNS
work_5ra3eporv5glfexqgreko6dnzy	18	20	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	19	1	And	and	CC
work_5ra3eporv5glfexqgreko6dnzy	19	2	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	19	3	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	19	4	certainly	certainly	RB
work_5ra3eporv5glfexqgreko6dnzy	19	5	possible	possible	JJ
work_5ra3eporv5glfexqgreko6dnzy	19	6	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	19	7	bring	bring	VB
work_5ra3eporv5glfexqgreko6dnzy	19	8	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	19	9	solution	solution	NN
work_5ra3eporv5glfexqgreko6dnzy	19	10	closer	close	JJR
work_5ra3eporv5glfexqgreko6dnzy	19	11	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	19	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	19	13	operator	operator	NN
work_5ra3eporv5glfexqgreko6dnzy	19	14	's	's	POS
work_5ra3eporv5glfexqgreko6dnzy	19	15	routine	routine	NN
work_5ra3eporv5glfexqgreko6dnzy	19	16	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	20	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	20	2	most	most	RBS
work_5ra3eporv5glfexqgreko6dnzy	20	3	recent	recent	JJ
work_5ra3eporv5glfexqgreko6dnzy	20	4	development	development	NN
work_5ra3eporv5glfexqgreko6dnzy	20	5	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	20	6	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	20	7	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	20	8	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	20	9	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	20	10	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	20	11	operation	operation	NN
work_5ra3eporv5glfexqgreko6dnzy	20	12	shows	show	VBZ
work_5ra3eporv5glfexqgreko6dnzy	20	13	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	20	14	number	number	NN
work_5ra3eporv5glfexqgreko6dnzy	20	15	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	20	16	concepts	concept	NNS
work_5ra3eporv5glfexqgreko6dnzy	20	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	20	18	which	which	WDT
work_5ra3eporv5glfexqgreko6dnzy	20	19	used	use	VBD
work_5ra3eporv5glfexqgreko6dnzy	20	20	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	20	21	solving	solve	VBG
work_5ra3eporv5glfexqgreko6dnzy	20	22	different	different	JJ
work_5ra3eporv5glfexqgreko6dnzy	20	23	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	20	24	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	20	25	problems	problem	NNS
work_5ra3eporv5glfexqgreko6dnzy	20	26	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	20	27	8	8	CD
work_5ra3eporv5glfexqgreko6dnzy	20	28	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	20	29	11	11	CD
work_5ra3eporv5glfexqgreko6dnzy	20	30	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	20	31	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	21	1	One	one	CD
work_5ra3eporv5glfexqgreko6dnzy	21	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	21	3	these	these	DT
work_5ra3eporv5glfexqgreko6dnzy	21	4	problems	problem	NNS
work_5ra3eporv5glfexqgreko6dnzy	21	5	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	21	6	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	21	7	under	under	JJ
work_5ra3eporv5glfexqgreko6dnzy	21	8	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	21	9	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	21	10	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	22	1	In	in	IN
work_5ra3eporv5glfexqgreko6dnzy	22	2	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	22	3	paper	paper	NN
work_5ra3eporv5glfexqgreko6dnzy	22	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	22	5	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	22	6	combination	combination	NN
work_5ra3eporv5glfexqgreko6dnzy	22	7	between	between	IN
work_5ra3eporv5glfexqgreko6dnzy	22	8	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	22	9	traditional	traditional	JJ
work_5ra3eporv5glfexqgreko6dnzy	22	10	analytical	analytical	JJ
work_5ra3eporv5glfexqgreko6dnzy	22	11	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	22	12	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	22	13	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	22	14	rule-	rule-	NN
work_5ra3eporv5glfexqgreko6dnzy	22	15	based	base	VBN
work_5ra3eporv5glfexqgreko6dnzy	22	16	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	22	17	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	22	18	made	make	VBN
work_5ra3eporv5glfexqgreko6dnzy	22	19	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	22	20	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	22	21	purpose	purpose	NN
work_5ra3eporv5glfexqgreko6dnzy	22	22	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	22	23	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	22	24	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	22	25	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	22	26	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	22	27	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	22	28	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	22	29	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	22	30	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	22	31	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	23	1	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	23	2	comparison	comparison	NN
work_5ra3eporv5glfexqgreko6dnzy	23	3	between	between	IN
work_5ra3eporv5glfexqgreko6dnzy	23	4	results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	23	5	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	23	6	these	these	DT
work_5ra3eporv5glfexqgreko6dnzy	23	7	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	23	8	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	23	9	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	23	10	also	also	RB
work_5ra3eporv5glfexqgreko6dnzy	23	11	made	make	VBN
work_5ra3eporv5glfexqgreko6dnzy	23	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	24	1	2-THEORETICAL	2-theoretical	LS
work_5ra3eporv5glfexqgreko6dnzy	24	2	FORMULATIONS	formulation	VBZ
work_5ra3eporv5glfexqgreko6dnzy	24	3	2.1	2.1	CD
work_5ra3eporv5glfexqgreko6dnzy	24	4	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	24	5	Modeling	Modeling	NNP
work_5ra3eporv5glfexqgreko6dnzy	24	6	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	24	7	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	24	8	Analysis	Analysis	NNP
work_5ra3eporv5glfexqgreko6dnzy	24	9	As	as	IN
work_5ra3eporv5glfexqgreko6dnzy	24	10	shown	show	VBN
work_5ra3eporv5glfexqgreko6dnzy	24	11	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	24	12	fig.1	fig.1	NNP
work_5ra3eporv5glfexqgreko6dnzy	24	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	24	14	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	24	15	linear	linear	JJ
work_5ra3eporv5glfexqgreko6dnzy	24	16	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	24	17	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	24	18	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	24	19	model	model	NN
work_5ra3eporv5glfexqgreko6dnzy	24	20	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	24	21	considered	consider	VBN
work_5ra3eporv5glfexqgreko6dnzy	24	22	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	24	23	represent	represent	VB
work_5ra3eporv5glfexqgreko6dnzy	24	24	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	24	25	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	24	26	performance	performance	NN
work_5ra3eporv5glfexqgreko6dnzy	24	27	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	24	28	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	24	29	isolated	isolated	JJ
work_5ra3eporv5glfexqgreko6dnzy	24	30	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	24	31	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	24	32	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	24	33	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	24	34	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	24	35	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	24	36	8	8	CD
work_5ra3eporv5glfexqgreko6dnzy	24	37	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	24	38	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	25	1	From	from	IN
work_5ra3eporv5glfexqgreko6dnzy	25	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	25	3	block	block	NN
work_5ra3eporv5glfexqgreko6dnzy	25	4	diagram	diagram	NNP
work_5ra3eporv5glfexqgreko6dnzy	25	5	shown	show	VBN
work_5ra3eporv5glfexqgreko6dnzy	25	6	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	25	7	Fig.1	Fig.1	NNP
work_5ra3eporv5glfexqgreko6dnzy	25	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	25	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	25	10	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	25	11	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	25	12	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	25	13	per	per	IN
work_5ra3eporv5glfexqgreko6dnzy	25	14	unit	unit	NN
work_5ra3eporv5glfexqgreko6dnzy	25	15	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	25	16	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	25	17	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	25	18	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	1	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	26	2	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	26	3	computed	compute	VBN
work_5ra3eporv5glfexqgreko6dnzy	26	4	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	26	5	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	26	6	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	26	7	following	following	JJ
work_5ra3eporv5glfexqgreko6dnzy	26	8	equations	equation	NNS
work_5ra3eporv5glfexqgreko6dnzy	26	9	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	26	10	D	D	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	11	Aw	Aw	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	12	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	14	where	where	WRB
work_5ra3eporv5glfexqgreko6dnzy	26	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	16	Aw	aw	UH
work_5ra3eporv5glfexqgreko6dnzy	26	17	indicate	indicate	VBP
work_5ra3eporv5glfexqgreko6dnzy	26	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	26	19	per	per	IN
work_5ra3eporv5glfexqgreko6dnzy	26	20	unit	unit	NN
work_5ra3eporv5glfexqgreko6dnzy	26	21	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	26	22	deviation	deviation	NN
work_5ra3eporv5glfexqgreko6dnzy	26	23	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	26	24	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	25	I	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	26	26	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	27	+	+	CC
work_5ra3eporv5glfexqgreko6dnzy	26	28	F	f	NN
work_5ra3eporv5glfexqgreko6dnzy	26	29	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	30	TRS	TRS	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	31	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	32	1'w	1'w	CD
work_5ra3eporv5glfexqgreko6dnzy	26	33	R(1	r(1	XX
work_5ra3eporv5glfexqgreko6dnzy	26	34	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	26	35	T	t	NN
work_5ra3eporv5glfexqgreko6dnzy	26	36	R	r	NN
work_5ra3eporv5glfexqgreko6dnzy	26	37	S	s	NN
work_5ra3eporv5glfexqgreko6dnzy	26	38	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	39	Proceedings	Proceedings	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	40	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	26	41	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	26	42	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	26	43	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	44	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	45	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	46	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	26	47	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	26	48	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	26	49	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	50	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	26	51	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	52	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	53	1045	1045	CD
work_5ra3eporv5glfexqgreko6dnzy	26	54	r	r	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	55	K	K	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	56	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	57	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	26	58	+	+	CC
work_5ra3eporv5glfexqgreko6dnzy	26	59	F	f	NN
work_5ra3eporv5glfexqgreko6dnzy	26	60	H	h	NN
work_5ra3eporv5glfexqgreko6dnzy	26	61	T	t	NN
work_5ra3eporv5glfexqgreko6dnzy	26	62	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	63	S	s	NN
work_5ra3eporv5glfexqgreko6dnzy	26	64	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	65	3Aw	3aw	CD
work_5ra3eporv5glfexqgreko6dnzy	26	66	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	67	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	26	68	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	69	=	=	NFP
work_5ra3eporv5glfexqgreko6dnzy	26	70	Pd	pd	UH
work_5ra3eporv5glfexqgreko6dnzy	26	71	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	72	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	26	73	Pm	Pm	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	74	=	=	NFP
work_5ra3eporv5glfexqgreko6dnzy	26	75	Pau	Pau	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	76	'	'	''
work_5ra3eporv5glfexqgreko6dnzy	26	77	R(1	R(1	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	78	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	26	79	TR	TR	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	80	S	S	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	81	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	82	Aw	aw	UH
work_5ra3eporv5glfexqgreko6dnzy	26	83	=	=	NFP
work_5ra3eporv5glfexqgreko6dnzy	26	84	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	85	P	p	NN
work_5ra3eporv5glfexqgreko6dnzy	26	86	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	26	87	–	–	:
work_5ra3eporv5glfexqgreko6dnzy	26	88	A	a	NN
work_5ra3eporv5glfexqgreko6dnzy	26	89	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	26	90	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	91	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	92	2HS	2hs	CD
work_5ra3eporv5glfexqgreko6dnzy	26	93	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	26	94	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	26	95	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	26	96	From	from	IN
work_5ra3eporv5glfexqgreko6dnzy	26	97	eq	eq	NNP
work_5ra3eporv5glfexqgreko6dnzy	26	98	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	27	1	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	27	2	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	27	3	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	27	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	27	5	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	27	6	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	27	7	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	27	8	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	27	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	27	10	eq	eq	NNP
work_5ra3eporv5glfexqgreko6dnzy	27	11	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	28	1	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	2	4	4	LS
work_5ra3eporv5glfexqgreko6dnzy	28	3	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	4	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	28	5	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	28	6	rewritten	rewrite	VBN
work_5ra3eporv5glfexqgreko6dnzy	28	7	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	28	8	;	;	:
work_5ra3eporv5glfexqgreko6dnzy	28	9	=	=	NFP
work_5ra3eporv5glfexqgreko6dnzy	28	10	K	K	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	11	+	+	CC
work_5ra3eporv5glfexqgreko6dnzy	28	12	F	F	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	13	HT	HT	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	14	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	15	S	S	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	16	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	17	la	la	UH
work_5ra3eporv5glfexqgreko6dnzy	28	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	19	w)–DAw	w)–DAw	.
work_5ra3eporv5glfexqgreko6dnzy	28	20	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	21	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	22	—	—	:
work_5ra3eporv5glfexqgreko6dnzy	28	23	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	24	R(1	R(1	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	25	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	26	TR	TR	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	27	S	S	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	28	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	29	2HS	2hs	CD
work_5ra3eporv5glfexqgreko6dnzy	28	30	Rearrange	Rearrange	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	31	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	28	32	equation	equation	NN
work_5ra3eporv5glfexqgreko6dnzy	28	33	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	28	34	S	S	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	35	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	28	36	domain	domain	NN
work_5ra3eporv5glfexqgreko6dnzy	28	37	;	;	,
work_5ra3eporv5glfexqgreko6dnzy	28	38	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	39	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	28	40	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	41	T	t	NN
work_5ra3eporv5glfexqgreko6dnzy	28	42	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	43	S)P	s)p	RB
work_5ra3eporv5glfexqgreko6dnzy	28	44	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	45	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	46	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	47	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	48	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	28	49	S2	s2	NN
work_5ra3eporv5glfexqgreko6dnzy	28	50	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	51	2Mw„S	2mw„s	CD
work_5ra3eporv5glfexqgreko6dnzy	28	52	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	53	w	w	NN
work_5ra3eporv5glfexqgreko6dnzy	28	54	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	55	Where	where	WRB
work_5ra3eporv5glfexqgreko6dnzy	28	56	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	57	DR+K	DR+K	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	58	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	59	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	28	60	M	m	NN
work_5ra3eporv5glfexqgreko6dnzy	28	61	=	=	NFP
work_5ra3eporv5glfexqgreko6dnzy	28	62	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	63	2HR	2hr	CD
work_5ra3eporv5glfexqgreko6dnzy	28	64	+	+	NFP
work_5ra3eporv5glfexqgreko6dnzy	28	65	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	66	DR	dr	NN
work_5ra3eporv5glfexqgreko6dnzy	28	67	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	68	K	k	NN
work_5ra3eporv5glfexqgreko6dnzy	28	69	„	„	NN
work_5ra3eporv5glfexqgreko6dnzy	28	70	FH	FH	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	71	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	72	T	T	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	73	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	74	L	l	NN
work_5ra3eporv5glfexqgreko6dnzy	28	75	v	v	NN
work_5ra3eporv5glfexqgreko6dnzy	28	76	DR	dr	NN
work_5ra3eporv5glfexqgreko6dnzy	28	77	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	78	K	k	NN
work_5ra3eporv5glfexqgreko6dnzy	28	79	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	80	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	81	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	82	2HRT	2HRT	NNS
work_5ra3eporv5glfexqgreko6dnzy	28	83	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	84	2(DR	2(dr	CD
work_5ra3eporv5glfexqgreko6dnzy	28	85	+	+	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	86	K	k	NN
work_5ra3eporv5glfexqgreko6dnzy	28	87	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	88	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	89	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	90	For	for	IN
work_5ra3eporv5glfexqgreko6dnzy	28	91	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	28	92	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	28	93	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	28	94	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	95	Pdist	Pdist	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	96	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	28	97	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	28	98	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	28	99	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	28	100	form	form	NN
work_5ra3eporv5glfexqgreko6dnzy	28	101	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	28	102	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	28	103	function	function	NN
work_5ra3eporv5glfexqgreko6dnzy	28	104	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	28	105	s	s	NN
work_5ra3eporv5glfexqgreko6dnzy	28	106	-	-	NN
work_5ra3eporv5glfexqgreko6dnzy	28	107	domain	domain	NN
work_5ra3eporv5glfexqgreko6dnzy	28	108	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	109	Pchange	Pchange	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	110	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	111	Pdist	Pdist	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	112	/s	/s	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	113	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	114	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	28	115	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	28	116	per	per	IN
work_5ra3eporv5glfexqgreko6dnzy	28	117	unit	unit	NN
work_5ra3eporv5glfexqgreko6dnzy	28	118	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	28	119	deviation	deviation	NN
work_5ra3eporv5glfexqgreko6dnzy	28	120	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	28	121	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	28	122	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	28	123	domain	domain	NN
work_5ra3eporv5glfexqgreko6dnzy	28	124	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	28	125	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	28	126	;	;	:
work_5ra3eporv5glfexqgreko6dnzy	28	127	Aw(t)=	aw(t)=	UH
work_5ra3eporv5glfexqgreko6dnzy	28	128	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	129	R	r	NN
work_5ra3eporv5glfexqgreko6dnzy	28	130	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	131	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	132	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	28	133	+	+	CC
work_5ra3eporv5glfexqgreko6dnzy	28	134	sin((w	sin((w	NN
work_5ra3eporv5glfexqgreko6dnzy	28	135	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	136	M	M	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	137	+	+	CC
work_5ra3eporv5glfexqgreko6dnzy	28	138	c))13„,„„g	c))13„,„„g	NN
work_5ra3eporv5glfexqgreko6dnzy	28	139	„	„	NN
work_5ra3eporv5glfexqgreko6dnzy	28	140	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	141	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	28	142	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	143	Dr	dr	NN
work_5ra3eporv5glfexqgreko6dnzy	28	144	+	+	CC
work_5ra3eporv5glfexqgreko6dnzy	28	145	K	k	NN
work_5ra3eporv5glfexqgreko6dnzy	28	146	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	147	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	148	Where	where	WRB
work_5ra3eporv5glfexqgreko6dnzy	28	149	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	150	B	B	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	151	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	28	152	111-	111-	CD
work_5ra3eporv5glfexqgreko6dnzy	28	153	2TR	2tr	CD
work_5ra3eporv5glfexqgreko6dnzy	28	154	Mw	Mw	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	155	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	28	156	+2	+2	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	157	TR2	TR2	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	158	w	w	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	159	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	28	160	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	28	161	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	28	162	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	28	163	M	M	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	164	M	M	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	165	c	c	NN
work_5ra3eporv5glfexqgreko6dnzy	28	166	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	28	167	tan	tan	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	168	-I	-I	.
work_5ra3eporv5glfexqgreko6dnzy	28	169	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	170	w	w	NN
work_5ra3eporv5glfexqgreko6dnzy	28	171	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	28	172	TR	TR	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	173	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	28	174	tan	tan	NN
work_5ra3eporv5glfexqgreko6dnzy	28	175	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	28	176	I	i	NN
work_5ra3eporv5glfexqgreko6dnzy	28	177	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	28	178	–	–	:
work_5ra3eporv5glfexqgreko6dnzy	28	179	Mw	Mw	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	180	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	28	181	TR	TR	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	182	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	28	183	–	–	:
work_5ra3eporv5glfexqgreko6dnzy	28	184	M	m	NN
work_5ra3eporv5glfexqgreko6dnzy	28	185	Through	through	IN
work_5ra3eporv5glfexqgreko6dnzy	28	186	these	these	DT
work_5ra3eporv5glfexqgreko6dnzy	28	187	last	last	JJ
work_5ra3eporv5glfexqgreko6dnzy	28	188	equations	equation	NNS
work_5ra3eporv5glfexqgreko6dnzy	28	189	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	28	190	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	28	191	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	28	192	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	28	193	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	28	194	or	or	CC
work_5ra3eporv5glfexqgreko6dnzy	28	195	speed	speed	NN
work_5ra3eporv5glfexqgreko6dnzy	28	196	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	28	197	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	28	198	computed	compute	VBN
work_5ra3eporv5glfexqgreko6dnzy	28	199	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	28	200	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	28	201	Pdist	Pdist	NNP
work_5ra3eporv5glfexqgreko6dnzy	28	202	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	29	1	2.2	2.2	CD
work_5ra3eporv5glfexqgreko6dnzy	29	2	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	29	3	Shedding	Shedding	NNP
work_5ra3eporv5glfexqgreko6dnzy	29	4	Design	Design	NNP
work_5ra3eporv5glfexqgreko6dnzy	29	5	Generally	generally	RB
work_5ra3eporv5glfexqgreko6dnzy	29	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	29	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	29	8	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	29	9	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	29	10	design	design	NN
work_5ra3eporv5glfexqgreko6dnzy	29	11	depends	depend	VBZ
work_5ra3eporv5glfexqgreko6dnzy	29	12	mainly	mainly	RB
work_5ra3eporv5glfexqgreko6dnzy	29	13	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	29	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	29	15	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	29	16	responses	response	NNS
work_5ra3eporv5glfexqgreko6dnzy	29	17	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	29	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	29	19	subsystem	subsystem	NNP
work_5ra3eporv5glfexqgreko6dnzy	29	20	model	model	NN
work_5ra3eporv5glfexqgreko6dnzy	29	21	according	accord	VBG
work_5ra3eporv5glfexqgreko6dnzy	29	22	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	29	23	many	many	JJ
work_5ra3eporv5glfexqgreko6dnzy	29	24	factors	factor	NNS
work_5ra3eporv5glfexqgreko6dnzy	29	25	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	30	1	These	these	DT
work_5ra3eporv5glfexqgreko6dnzy	30	2	factors	factor	NNS
work_5ra3eporv5glfexqgreko6dnzy	30	3	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	30	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	30	5	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	30	6	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	30	7	set	set	VBN
work_5ra3eporv5glfexqgreko6dnzy	30	8	points	point	NNS
work_5ra3eporv5glfexqgreko6dnzy	30	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	30	10	number	number	NN
work_5ra3eporv5glfexqgreko6dnzy	30	11	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	30	12	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	30	13	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	30	14	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	30	15	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	30	16	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	30	17	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	30	18	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	30	19	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	30	20	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	30	21	per	per	IN
work_5ra3eporv5glfexqgreko6dnzy	30	22	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	30	23	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	31	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	31	2	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	31	3	allowable	allowable	JJ
work_5ra3eporv5glfexqgreko6dnzy	31	4	operating	operating	NN
work_5ra3eporv5glfexqgreko6dnzy	31	5	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	31	6	must	must	MD
work_5ra3eporv5glfexqgreko6dnzy	31	7	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	31	8	selected	select	VBN
work_5ra3eporv5glfexqgreko6dnzy	31	9	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	31	10	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	31	11	certain	certain	JJ
work_5ra3eporv5glfexqgreko6dnzy	31	12	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	31	13	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	32	1	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	32	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	32	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	32	4	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	32	5	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	32	6	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	32	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	32	8	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	32	9	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	32	10	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	32	11	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	32	12	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	32	13	Paper	paper	NN
work_5ra3eporv5glfexqgreko6dnzy	32	14	1E-1	1e-1	CD
work_5ra3eporv5glfexqgreko6dnzy	32	15	1046	1046	CD
work_5ra3eporv5glfexqgreko6dnzy	32	16	Sufficient	sufficient	JJ
work_5ra3eporv5glfexqgreko6dnzy	32	17	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	32	18	should	should	MD
work_5ra3eporv5glfexqgreko6dnzy	32	19	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	32	20	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	32	21	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	32	22	limit	limit	VB
work_5ra3eporv5glfexqgreko6dnzy	32	23	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	32	24	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	32	25	decline	decline	NN
work_5ra3eporv5glfexqgreko6dnzy	32	26	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	32	27	above	above	IN
work_5ra3eporv5glfexqgreko6dnzy	32	28	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	32	29	selected	select	VBN
work_5ra3eporv5glfexqgreko6dnzy	32	30	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	32	31	operating	operating	NN
work_5ra3eporv5glfexqgreko6dnzy	32	32	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	32	33	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	32	34	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	32	35	7	7	CD
work_5ra3eporv5glfexqgreko6dnzy	32	36	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	32	37	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	33	1	After	after	IN
work_5ra3eporv5glfexqgreko6dnzy	33	2	setting	set	VBG
work_5ra3eporv5glfexqgreko6dnzy	33	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	33	4	initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	33	5	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	33	6	shed	shed	NN
work_5ra3eporv5glfexqgreko6dnzy	33	7	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	33	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	33	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	33	10	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	33	11	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	33	12	made	make	VBN
work_5ra3eporv5glfexqgreko6dnzy	33	13	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	33	14	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	33	15	paper	paper	NN
work_5ra3eporv5glfexqgreko6dnzy	33	16	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	33	17	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	33	18	protective	protective	JJ
work_5ra3eporv5glfexqgreko6dnzy	33	19	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	33	20	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	34	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	34	2	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	34	3	one	one	CD
work_5ra3eporv5glfexqgreko6dnzy	34	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	34	5	consists	consist	VBZ
work_5ra3eporv5glfexqgreko6dnzy	34	6	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	34	7	four	four	CD
work_5ra3eporv5glfexqgreko6dnzy	34	8	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	34	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	34	10	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	34	11	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	34	12	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	34	13	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	34	14	different	different	JJ
work_5ra3eporv5glfexqgreko6dnzy	34	15	values	value	NNS
work_5ra3eporv5glfexqgreko6dnzy	34	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	34	17	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	34	18	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	34	19	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	35	1	And	and	CC
work_5ra3eporv5glfexqgreko6dnzy	35	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	35	3	second	second	JJ
work_5ra3eporv5glfexqgreko6dnzy	35	4	plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	35	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	35	6	consists	consist	VBZ
work_5ra3eporv5glfexqgreko6dnzy	35	7	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	35	8	six	six	CD
work_5ra3eporv5glfexqgreko6dnzy	35	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	35	10	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	35	11	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	35	12	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	35	13	unequal	unequal	JJ
work_5ra3eporv5glfexqgreko6dnzy	35	14	size	size	NN
work_5ra3eporv5glfexqgreko6dnzy	35	15	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	35	16	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	35	17	same	same	JJ
work_5ra3eporv5glfexqgreko6dnzy	35	18	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	35	19	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	35	20	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	35	21	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	35	22	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	35	23	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	35	24	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	35	25	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	35	26	different	different	JJ
work_5ra3eporv5glfexqgreko6dnzy	35	27	values	value	NNS
work_5ra3eporv5glfexqgreko6dnzy	35	28	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	35	29	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	35	30	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	35	31	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	36	1	2.3	2.3	LS
work_5ra3eporv5glfexqgreko6dnzy	36	2	Expert	Expert	NNP
work_5ra3eporv5glfexqgreko6dnzy	36	3	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	36	4	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	36	5	systems	system	NNS
work_5ra3eporv5glfexqgreko6dnzy	36	6	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	36	7	computer	computer	NN
work_5ra3eporv5glfexqgreko6dnzy	36	8	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	36	9	that	that	WDT
work_5ra3eporv5glfexqgreko6dnzy	36	10	constructed	construct	VBD
work_5ra3eporv5glfexqgreko6dnzy	36	11	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	36	12	do	do	VB
work_5ra3eporv5glfexqgreko6dnzy	36	13	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	36	14	kinds	kind	NNS
work_5ra3eporv5glfexqgreko6dnzy	36	15	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	36	16	activities	activity	NNS
work_5ra3eporv5glfexqgreko6dnzy	36	17	that	that	WDT
work_5ra3eporv5glfexqgreko6dnzy	36	18	human	human	JJ
work_5ra3eporv5glfexqgreko6dnzy	36	19	experts	expert	NNS
work_5ra3eporv5glfexqgreko6dnzy	36	20	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	36	21	do	do	VB
work_5ra3eporv5glfexqgreko6dnzy	36	22	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	37	1	Its	-PRON-	PRP$
work_5ra3eporv5glfexqgreko6dnzy	37	2	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	37	3	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	37	4	usually	usually	RB
work_5ra3eporv5glfexqgreko6dnzy	37	5	set	set	VBN
work_5ra3eporv5glfexqgreko6dnzy	37	6	up	up	RP
work_5ra3eporv5glfexqgreko6dnzy	37	7	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	37	8	operate	operate	VB
work_5ra3eporv5glfexqgreko6dnzy	37	9	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	37	10	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	37	11	manner	manner	NN
work_5ra3eporv5glfexqgreko6dnzy	37	12	that	that	WDT
work_5ra3eporv5glfexqgreko6dnzy	37	13	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	37	14	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	37	15	perceived	perceive	VBN
work_5ra3eporv5glfexqgreko6dnzy	37	16	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	37	17	intelligent	intelligent	JJ
work_5ra3eporv5glfexqgreko6dnzy	37	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	37	19	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	37	20	if	if	IN
work_5ra3eporv5glfexqgreko6dnzy	37	21	there	there	RB
work_5ra3eporv5glfexqgreko6dnzy	37	22	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	37	23	human	human	JJ
work_5ra3eporv5glfexqgreko6dnzy	37	24	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	37	25	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	37	26	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	37	27	other	other	JJ
work_5ra3eporv5glfexqgreko6dnzy	37	28	side	side	NN
work_5ra3eporv5glfexqgreko6dnzy	37	29	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	37	30	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	37	31	video	video	NN
work_5ra3eporv5glfexqgreko6dnzy	37	32	terminal	terminal	NN
work_5ra3eporv5glfexqgreko6dnzy	37	33	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	38	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	38	2	appearance	appearance	NN
work_5ra3eporv5glfexqgreko6dnzy	38	3	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	38	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	38	5	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	38	6	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	38	7	intelligence	intelligence	NN
work_5ra3eporv5glfexqgreko6dnzy	38	8	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	38	9	enhanced	enhance	VBN
work_5ra3eporv5glfexqgreko6dnzy	38	10	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	38	11	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	38	12	extent	extent	NN
work_5ra3eporv5glfexqgreko6dnzy	38	13	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	38	14	its	-PRON-	PRP$
work_5ra3eporv5glfexqgreko6dnzy	38	15	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	38	16	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	38	17	accept	accept	VB
work_5ra3eporv5glfexqgreko6dnzy	38	18	free	free	JJ
work_5ra3eporv5glfexqgreko6dnzy	38	19	form	form	NN
work_5ra3eporv5glfexqgreko6dnzy	38	20	input	input	NN
work_5ra3eporv5glfexqgreko6dnzy	38	21	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	38	22	simple	simple	JJ
work_5ra3eporv5glfexqgreko6dnzy	38	23	English	english	JJ
work_5ra3eporv5glfexqgreko6dnzy	38	24	sentences	sentence	NNS
work_5ra3eporv5glfexqgreko6dnzy	38	25	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	38	26	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	38	27	state	state	VB
work_5ra3eporv5glfexqgreko6dnzy	38	28	its	-PRON-	PRP$
work_5ra3eporv5glfexqgreko6dnzy	38	29	conclusions	conclusion	NNS
work_5ra3eporv5glfexqgreko6dnzy	38	30	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	38	31	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	38	32	same	same	JJ
work_5ra3eporv5glfexqgreko6dnzy	38	33	way	way	NN
work_5ra3eporv5glfexqgreko6dnzy	38	34	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	39	1	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	39	2	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	39	3	that	that	WDT
work_5ra3eporv5glfexqgreko6dnzy	39	4	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	39	5	do	do	VB
work_5ra3eporv5glfexqgreko6dnzy	39	6	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	39	7	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	39	8	said	say	VBN
work_5ra3eporv5glfexqgreko6dnzy	39	9	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	39	10	have	have	VB
work_5ra3eporv5glfexqgreko6dnzy	39	11	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	39	12	natural	natural	JJ
work_5ra3eporv5glfexqgreko6dnzy	39	13	language	language	NN
work_5ra3eporv5glfexqgreko6dnzy	39	14	interface	interface	NN
work_5ra3eporv5glfexqgreko6dnzy	39	15	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	40	1	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	40	2	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	40	3	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	40	4	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	40	5	usually	usually	RB
work_5ra3eporv5glfexqgreko6dnzy	40	6	written	write	VBN
work_5ra3eporv5glfexqgreko6dnzy	40	7	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	40	8	languages	language	NNS
work_5ra3eporv5glfexqgreko6dnzy	40	9	like	like	IN
work_5ra3eporv5glfexqgreko6dnzy	40	10	LISP	LISP	NNP
work_5ra3eporv5glfexqgreko6dnzy	40	11	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	40	12	PROLOG	PROLOG	NNP
work_5ra3eporv5glfexqgreko6dnzy	40	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	40	14	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	40	15	9	9	CD
work_5ra3eporv5glfexqgreko6dnzy	40	16	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	40	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	40	18	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	40	19	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	40	20	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	40	21	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	41	1	In	in	IN
work_5ra3eporv5glfexqgreko6dnzy	41	2	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	41	3	paper	paper	NN
work_5ra3eporv5glfexqgreko6dnzy	41	4	Prolog	Prolog	NNP
work_5ra3eporv5glfexqgreko6dnzy	41	5	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	41	6	used	use	VBN
work_5ra3eporv5glfexqgreko6dnzy	41	7	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	41	8	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	41	9	language	language	NN
work_5ra3eporv5glfexqgreko6dnzy	41	10	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	41	11	designing	design	VBG
work_5ra3eporv5glfexqgreko6dnzy	41	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	41	13	suggested	suggest	VBN
work_5ra3eporv5glfexqgreko6dnzy	41	14	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	41	15	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	41	16	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	42	1	Fig.2	Fig.2	NNP
work_5ra3eporv5glfexqgreko6dnzy	42	2	presents	present	VBZ
work_5ra3eporv5glfexqgreko6dnzy	42	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	42	4	fundamental	fundamental	JJ
work_5ra3eporv5glfexqgreko6dnzy	42	5	components	component	NNS
work_5ra3eporv5glfexqgreko6dnzy	42	6	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	42	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	42	8	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	42	9	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	42	10	which	which	WDT
work_5ra3eporv5glfexqgreko6dnzy	42	11	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	42	12	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	42	13	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	42	14	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	42	15	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	42	16	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	42	17	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	42	18	11	11	CD
work_5ra3eporv5glfexqgreko6dnzy	42	19	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	42	20	;	;	:
work_5ra3eporv5glfexqgreko6dnzy	42	21	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	42	22	database	database	NN
work_5ra3eporv5glfexqgreko6dnzy	42	23	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	42	24	which	which	WDT
work_5ra3eporv5glfexqgreko6dnzy	42	25	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	42	26	composed	compose	VBN
work_5ra3eporv5glfexqgreko6dnzy	42	27	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	42	28	different	different	JJ
work_5ra3eporv5glfexqgreko6dnzy	42	29	data	datum	NNS
work_5ra3eporv5glfexqgreko6dnzy	42	30	concerning	concern	VBG
work_5ra3eporv5glfexqgreko6dnzy	42	31	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	42	32	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	42	33	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	42	34	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	42	35	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	42	36	information	information	NN
work_5ra3eporv5glfexqgreko6dnzy	42	37	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	42	38	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	42	39	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	42	40	components	component	NNS
work_5ra3eporv5glfexqgreko6dnzy	42	41	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	42	42	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	43	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	43	2	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	43	3	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	43	4	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	43	5	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	43	6	contains	contain	VBZ
work_5ra3eporv5glfexqgreko6dnzy	43	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	43	8	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	43	9	required	require	VBN
work_5ra3eporv5glfexqgreko6dnzy	43	10	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	43	11	perform	perform	VB
work_5ra3eporv5glfexqgreko6dnzy	43	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	43	13	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	43	14	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	43	15	's	's	POS
work_5ra3eporv5glfexqgreko6dnzy	43	16	tasks	task	NNS
work_5ra3eporv5glfexqgreko6dnzy	43	17	well	well	UH
work_5ra3eporv5glfexqgreko6dnzy	43	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	43	19	where	where	WRB
work_5ra3eporv5glfexqgreko6dnzy	43	20	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	43	21	quality	quality	NN
work_5ra3eporv5glfexqgreko6dnzy	43	22	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	43	23	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	43	24	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	43	25	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	43	26	relies	rely	VBZ
work_5ra3eporv5glfexqgreko6dnzy	43	27	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	43	28	its	-PRON-	PRP$
work_5ra3eporv5glfexqgreko6dnzy	43	29	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	43	30	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	43	31	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	43	32	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	44	1	Inference	inference	NN
work_5ra3eporv5glfexqgreko6dnzy	44	2	engine	engine	NN
work_5ra3eporv5glfexqgreko6dnzy	44	3	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	44	4	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	44	5	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	44	6	needed	need	VBN
work_5ra3eporv5glfexqgreko6dnzy	44	7	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	44	8	perform	perform	VB
work_5ra3eporv5glfexqgreko6dnzy	44	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	44	10	exploitation	exploitation	NN
work_5ra3eporv5glfexqgreko6dnzy	44	11	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	44	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	44	13	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	44	14	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	44	15	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	44	16	order	order	NN
work_5ra3eporv5glfexqgreko6dnzy	44	17	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	44	18	find	find	VB
work_5ra3eporv5glfexqgreko6dnzy	44	19	solutions	solution	NNS
work_5ra3eporv5glfexqgreko6dnzy	44	20	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	45	1	3	3	LS
work_5ra3eporv5glfexqgreko6dnzy	45	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	46	1	APPLICATIONS	application	NNS
work_5ra3eporv5glfexqgreko6dnzy	46	2	AND	and	CC
work_5ra3eporv5glfexqgreko6dnzy	46	3	RESULTS	RESULTS	NNP
work_5ra3eporv5glfexqgreko6dnzy	46	4	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	46	5	Response	Response	NNP
work_5ra3eporv5glfexqgreko6dnzy	46	6	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	46	7	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	46	8	Shedding	Shedding	NNP
work_5ra3eporv5glfexqgreko6dnzy	46	9	Results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	46	10	To	to	TO
work_5ra3eporv5glfexqgreko6dnzy	46	11	compute	compute	VB
work_5ra3eporv5glfexqgreko6dnzy	46	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	46	13	optimum	optimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	46	14	settings	setting	NNS
work_5ra3eporv5glfexqgreko6dnzy	46	15	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	46	16	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	46	17	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	46	18	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	46	19	relays	relay	NNS
work_5ra3eporv5glfexqgreko6dnzy	46	20	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	46	21	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	46	22	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	46	23	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	46	24	turbine	turbine	NN
work_5ra3eporv5glfexqgreko6dnzy	46	25	protection	protection	NN
work_5ra3eporv5glfexqgreko6dnzy	46	26	schemes	scheme	NNS
work_5ra3eporv5glfexqgreko6dnzy	46	27	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	46	28	designed	design	VBN
work_5ra3eporv5glfexqgreko6dnzy	46	29	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	46	30	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	46	31	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	46	32	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	46	33	assumed	assume	VBN
work_5ra3eporv5glfexqgreko6dnzy	46	34	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	46	35	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	46	36	lead	lead	NN
work_5ra3eporv5glfexqgreko6dnzy	46	37	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	46	38	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	46	39	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	46	40	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	46	41	change	change	NN
work_5ra3eporv5glfexqgreko6dnzy	46	42	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	46	43	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	46	44	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	46	45	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	46	46	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	46	47	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	46	48	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	46	49	per	per	IN
work_5ra3eporv5glfexqgreko6dnzy	46	50	unit	unit	NN
work_5ra3eporv5glfexqgreko6dnzy	46	51	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	47	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	47	2	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	47	3	allowable	allowable	JJ
work_5ra3eporv5glfexqgreko6dnzy	47	4	operating	operating	NN
work_5ra3eporv5glfexqgreko6dnzy	47	5	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	47	6	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	47	7	selected	select	VBN
work_5ra3eporv5glfexqgreko6dnzy	47	8	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	47	9	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	47	10	57	57	CD
work_5ra3eporv5glfexqgreko6dnzy	47	11	Hz	Hz	NNS
work_5ra3eporv5glfexqgreko6dnzy	47	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	48	1	And	and	CC
work_5ra3eporv5glfexqgreko6dnzy	48	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	48	3	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	48	4	parameters	parameter	VBZ
work_5ra3eporv5glfexqgreko6dnzy	48	5	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	48	6	per	per	IN
work_5ra3eporv5glfexqgreko6dnzy	48	7	unit	unit	NN
work_5ra3eporv5glfexqgreko6dnzy	48	8	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	48	9	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	48	10	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	48	11	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	49	1	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	49	2	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	49	3	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	49	4	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	49	5	;	;	:
work_5ra3eporv5glfexqgreko6dnzy	49	6	Krr=	Krr=	NNP
work_5ra3eporv5glfexqgreko6dnzy	49	7	0.85	0.85	CD
work_5ra3eporv5glfexqgreko6dnzy	49	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	49	9	D=1.0	D=1.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	49	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	49	11	H=3.5	H=3.5	NNP
work_5ra3eporv5glfexqgreko6dnzy	49	12	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	49	13	FH=0.3	FH=0.3	NNP
work_5ra3eporv5glfexqgreko6dnzy	49	14	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	49	15	TR=8.0	TR=8.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	49	16	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	49	17	R=0.06	R=0.06	NNP
work_5ra3eporv5glfexqgreko6dnzy	49	18	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	50	1	All	all	DT
work_5ra3eporv5glfexqgreko6dnzy	50	2	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	50	3	parameters	parameter	NNS
work_5ra3eporv5glfexqgreko6dnzy	50	4	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	50	5	estimated	estimate	VBN
work_5ra3eporv5glfexqgreko6dnzy	50	6	based	base	VBN
work_5ra3eporv5glfexqgreko6dnzy	50	7	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	50	8	common	common	JJ
work_5ra3eporv5glfexqgreko6dnzy	50	9	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	50	10	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	50	11	typical	typical	JJ
work_5ra3eporv5glfexqgreko6dnzy	50	12	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	50	13	designs	design	VBZ
work_5ra3eporv5glfexqgreko6dnzy	50	14	3.1	3.1	CD
work_5ra3eporv5glfexqgreko6dnzy	50	15	Scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	50	16	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	50	17	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	50	18	Linear	Linear	NNP
work_5ra3eporv5glfexqgreko6dnzy	50	19	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	50	20	Response	Response	NNP
work_5ra3eporv5glfexqgreko6dnzy	50	21	Model	Model	NNP
work_5ra3eporv5glfexqgreko6dnzy	50	22	Applications	Applications	NNPS
work_5ra3eporv5glfexqgreko6dnzy	50	23	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	50	24	Results	Results	NNPS
work_5ra3eporv5glfexqgreko6dnzy	50	25	Table	table	NN
work_5ra3eporv5glfexqgreko6dnzy	50	26	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	50	27	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	50	28	illustrates	illustrate	VBZ
work_5ra3eporv5glfexqgreko6dnzy	50	29	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	50	30	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	50	31	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	50	32	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	50	33	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	50	34	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	50	35	change	change	NN
work_5ra3eporv5glfexqgreko6dnzy	50	36	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	50	37	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	50	38	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	50	39	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	50	40	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	50	41	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	50	42	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	50	43	p.0	p.0	NNS
work_5ra3eporv5glfexqgreko6dnzy	50	44	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	51	1	By	by	IN
work_5ra3eporv5glfexqgreko6dnzy	51	2	using	use	VBG
work_5ra3eporv5glfexqgreko6dnzy	51	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	51	4	linear	linear	JJ
work_5ra3eporv5glfexqgreko6dnzy	51	5	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	51	6	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	51	7	model	model	NN
work_5ra3eporv5glfexqgreko6dnzy	51	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	51	9	fig.1,where	fig.1,where	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	51	10	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	51	11	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	51	12	Proceedings	Proceedings	NNPS
work_5ra3eporv5glfexqgreko6dnzy	51	13	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	51	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	51	15	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	51	16	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	51	17	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	51	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	51	19	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	51	20	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	51	21	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	51	22	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	51	23	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	51	24	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	51	25	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	51	26	1047	1047	CD
work_5ra3eporv5glfexqgreko6dnzy	51	27	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	51	28	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	51	29	obtained	obtain	VBN
work_5ra3eporv5glfexqgreko6dnzy	51	30	from	from	IN
work_5ra3eporv5glfexqgreko6dnzy	51	31	Eq	Eq	NNP
work_5ra3eporv5glfexqgreko6dnzy	51	32	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	52	1	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	52	2	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	52	3	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	52	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	52	5	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	52	6	protective	protective	JJ
work_5ra3eporv5glfexqgreko6dnzy	52	7	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	52	8	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	52	9	designed	design	VBN
work_5ra3eporv5glfexqgreko6dnzy	52	10	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	52	11	compared	compare	VBN
work_5ra3eporv5glfexqgreko6dnzy	52	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	53	1	Plan1	plan1	LS
work_5ra3eporv5glfexqgreko6dnzy	53	2	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	53	3	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	53	4	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	53	5	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	53	6	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	53	7	4-equal	4-equal	CD
work_5ra3eporv5glfexqgreko6dnzy	53	8	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	53	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	53	10	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	53	11	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	53	12	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	53	13	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	53	14	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	53	15	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	53	16	6-steps	6-steps	CD
work_5ra3eporv5glfexqgreko6dnzy	53	17	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	54	1	Since	since	IN
work_5ra3eporv5glfexqgreko6dnzy	54	2	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	54	3	large	large	JJ
work_5ra3eporv5glfexqgreko6dnzy	54	4	turbine	turbine	NN
work_5ra3eporv5glfexqgreko6dnzy	54	5	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	54	6	generator	generator	NN
work_5ra3eporv5glfexqgreko6dnzy	54	7	sets	set	NNS
work_5ra3eporv5glfexqgreko6dnzy	54	8	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	54	9	not	not	RB
work_5ra3eporv5glfexqgreko6dnzy	54	10	rated	rate	VBN
work_5ra3eporv5glfexqgreko6dnzy	54	11	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	54	12	continuous	continuous	JJ
work_5ra3eporv5glfexqgreko6dnzy	54	13	operation	operation	NN
work_5ra3eporv5glfexqgreko6dnzy	54	14	below	below	IN
work_5ra3eporv5glfexqgreko6dnzy	54	15	about	about	IN
work_5ra3eporv5glfexqgreko6dnzy	54	16	59.5Hz	59.5hz	JJ
work_5ra3eporv5glfexqgreko6dnzy	54	17	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	54	18	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	54	19	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	54	20	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	54	21	let	let	VB
work_5ra3eporv5glfexqgreko6dnzy	54	22	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	54	23	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	54	24	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	54	25	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	54	26	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	54	27	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	54	28	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	54	29	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	54	30	set	set	VBN
work_5ra3eporv5glfexqgreko6dnzy	54	31	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	54	32	59.5	59.5	CD
work_5ra3eporv5glfexqgreko6dnzy	54	33	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	54	34	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	55	1	Plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	55	2	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	55	3	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	55	4	As	as	IN
work_5ra3eporv5glfexqgreko6dnzy	55	5	shown	show	VBN
work_5ra3eporv5glfexqgreko6dnzy	55	6	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	55	7	Table	table	NN
work_5ra3eporv5glfexqgreko6dnzy	55	8	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	55	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	55	10	where	where	WRB
work_5ra3eporv5glfexqgreko6dnzy	55	11	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	55	12	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	55	13	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	55	14	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	55	15	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	55	16	corresponding	correspond	VBG
work_5ra3eporv5glfexqgreko6dnzy	55	17	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	55	18	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	55	19	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	55	20	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	55	21	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	55	22	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	55	23	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	55	24	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	55	25	four	four	CD
work_5ra3eporv5glfexqgreko6dnzy	55	26	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	55	27	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	55	28	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	55	29	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	55	30	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	55	31	tabulated	tabulate	VBN
work_5ra3eporv5glfexqgreko6dnzy	55	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	55	33	taking	take	VBG
work_5ra3eporv5glfexqgreko6dnzy	55	34	into	into	IN
work_5ra3eporv5glfexqgreko6dnzy	55	35	consideration	consideration	NN
work_5ra3eporv5glfexqgreko6dnzy	55	36	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	55	37	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	55	38	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	55	39	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	55	40	plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	55	41	uses	use	VBZ
work_5ra3eporv5glfexqgreko6dnzy	55	42	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	55	43	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	55	44	delay	delay	NN
work_5ra3eporv5glfexqgreko6dnzy	55	45	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	55	46	0.1	0.1	CD
work_5ra3eporv5glfexqgreko6dnzy	55	47	second	second	JJ
work_5ra3eporv5glfexqgreko6dnzy	55	48	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	55	49	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	55	50	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	55	51	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	55	52	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	55	53	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	55	54	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	56	1	Table	table	NN
work_5ra3eporv5glfexqgreko6dnzy	56	2	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	56	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	56	4	illustrates	illustrate	VBZ
work_5ra3eporv5glfexqgreko6dnzy	56	5	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	56	6	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	56	7	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	56	8	after	after	IN
work_5ra3eporv5glfexqgreko6dnzy	56	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	56	10	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	56	11	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	56	12	four	four	CD
work_5ra3eporv5glfexqgreko6dnzy	56	13	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	56	14	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	56	15	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	56	16	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	56	17	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	56	18	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	56	19	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	56	20	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	56	21	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	56	22	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	56	23	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	56	24	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	56	25	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	56	26	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	56	27	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	56	28	p.u	p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	56	29	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	57	1	Fig	fig	NN
work_5ra3eporv5glfexqgreko6dnzy	57	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	58	1	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	58	2	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	58	3	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	58	4	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	58	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	58	6	b	b	NN
work_5ra3eporv5glfexqgreko6dnzy	58	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	58	8	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	58	9	c	c	NNP
work_5ra3eporv5glfexqgreko6dnzy	58	10	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	58	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	58	12	shows	show	VBZ
work_5ra3eporv5glfexqgreko6dnzy	58	13	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	58	14	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	58	15	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	58	16	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	58	17	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	58	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	58	19	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	58	20	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	58	21	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	58	22	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	58	23	p.u	p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	58	24	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	59	1	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	59	2	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	59	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	59	4	respectively	respectively	RB
work_5ra3eporv5glfexqgreko6dnzy	59	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	59	6	before	before	RB
work_5ra3eporv5glfexqgreko6dnzy	59	7	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	59	8	after	after	IN
work_5ra3eporv5glfexqgreko6dnzy	59	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	59	10	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	59	11	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	60	1	Plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	60	2	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	60	3	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	60	4	As	as	IN
work_5ra3eporv5glfexqgreko6dnzy	60	5	shown	show	VBN
work_5ra3eporv5glfexqgreko6dnzy	60	6	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	60	7	Table4	Table4	NNP
work_5ra3eporv5glfexqgreko6dnzy	60	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	60	9	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	60	10	consists	consist	VBZ
work_5ra3eporv5glfexqgreko6dnzy	60	11	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	60	12	six	six	CD
work_5ra3eporv5glfexqgreko6dnzy	60	13	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	60	14	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	60	15	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	60	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	60	17	unequal	unequal	JJ
work_5ra3eporv5glfexqgreko6dnzy	60	18	size	size	NN
work_5ra3eporv5glfexqgreko6dnzy	60	19	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	60	20	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	60	21	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	60	22	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	60	23	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	60	24	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	60	25	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	60	26	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	60	27	p.u	p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	60	28	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	61	1	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	61	2	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	61	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	62	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	62	2	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	62	3	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	62	4	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	62	5	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	62	6	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	62	7	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	62	8	closer	close	JJR
work_5ra3eporv5glfexqgreko6dnzy	62	9	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	62	10	than	than	IN
work_5ra3eporv5glfexqgreko6dnzy	62	11	plan1	plan1	NN
work_5ra3eporv5glfexqgreko6dnzy	62	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	63	1	i.e.	i.e.	FW
work_5ra3eporv5glfexqgreko6dnzy	64	1	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	64	2	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	64	3	disturbance=0.6p.u.at	disturbance=0.6p.u.at	NNP
work_5ra3eporv5glfexqgreko6dnzy	64	4	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	64	5	=	=	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	64	6	59.5	59.5	CD
work_5ra3eporv5glfexqgreko6dnzy	64	7	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	64	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	64	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	64	10	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	64	11	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	64	12	0.046	0.046	CD
work_5ra3eporv5glfexqgreko6dnzy	64	13	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	64	14	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	65	1	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	65	2	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	65	3	delay=0.lsecond	delay=0.lsecond	NNP
work_5ra3eporv5glfexqgreko6dnzy	65	4	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	65	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	65	6	then	then	RB
work_5ra3eporv5glfexqgreko6dnzy	65	7	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	65	8	frequency=59.3Hz	frequency=59.3hz	NN
work_5ra3eporv5glfexqgreko6dnzy	65	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	65	10	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	65	11	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	65	12	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	65	13	0.046p.u	0.046p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	65	14	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	65	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	65	16	then	then	RB
work_5ra3eporv5glfexqgreko6dnzy	65	17	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	65	18	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	65	19	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	65	20	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	65	21	0.2	0.2	CD
work_5ra3eporv5glfexqgreko6dnzy	65	22	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	65	23	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	65	24	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	65	25	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	65	26	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	65	27	reach	reach	VB
work_5ra3eporv5glfexqgreko6dnzy	65	28	58.5Hz	58.5hz	RB
work_5ra3eporv5glfexqgreko6dnzy	65	29	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	65	30	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	65	31	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	65	32	sixth	sixth	JJ
work_5ra3eporv5glfexqgreko6dnzy	65	33	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	65	34	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	65	35	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	65	36	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	65	37	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	65	38	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	65	39	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	65	40	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	65	41	found	find	VBN
work_5ra3eporv5glfexqgreko6dnzy	65	42	0.036p.u	0.036p.u	CD
work_5ra3eporv5glfexqgreko6dnzy	65	43	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	66	1	Note	note	VB
work_5ra3eporv5glfexqgreko6dnzy	66	2	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	66	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	66	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	66	5	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	66	6	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	66	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	66	8	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	66	9	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	66	10	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	66	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	66	12	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	66	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	66	14	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	66	15	1.0p.u.load	1.0p.u.load	CD
work_5ra3eporv5glfexqgreko6dnzy	66	16	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	66	17	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	66	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	66	19	same	same	JJ
work_5ra3eporv5glfexqgreko6dnzy	66	20	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	66	21	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	66	22	plan1,0.24,0.48,and0.64	plan1,0.24,0.48,and0.64	NNP
work_5ra3eporv5glfexqgreko6dnzy	66	23	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	66	24	respectively	respectively	RB
work_5ra3eporv5glfexqgreko6dnzy	66	25	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	67	1	Both	both	DT
work_5ra3eporv5glfexqgreko6dnzy	67	2	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	67	3	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	67	4	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	67	5	plan1	plan1	NN
work_5ra3eporv5glfexqgreko6dnzy	67	6	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	67	7	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	67	8	use	use	VB
work_5ra3eporv5glfexqgreko6dnzy	67	9	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	67	10	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	67	11	delay	delay	NN
work_5ra3eporv5glfexqgreko6dnzy	67	12	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	67	13	0.1	0.1	CD
work_5ra3eporv5glfexqgreko6dnzy	67	14	sec	sec	NNP
work_5ra3eporv5glfexqgreko6dnzy	67	15	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	68	1	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	68	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	68	3	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	68	4	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	68	5	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	69	1	Note	note	VB
work_5ra3eporv5glfexqgreko6dnzy	69	2	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	69	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	69	4	larger	large	JJR
work_5ra3eporv5glfexqgreko6dnzy	69	5	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	69	6	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	69	7	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	69	8	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	69	9	first	first	RB
work_5ra3eporv5glfexqgreko6dnzy	69	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	69	11	followed	follow	VBN
work_5ra3eporv5glfexqgreko6dnzy	69	12	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	69	13	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	69	14	smaller	small	JJR
work_5ra3eporv5glfexqgreko6dnzy	69	15	one	one	NN
work_5ra3eporv5glfexqgreko6dnzy	69	16	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	70	1	It	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	70	2	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	70	3	found	find	VBN
work_5ra3eporv5glfexqgreko6dnzy	70	4	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	70	5	through	through	IN
work_5ra3eporv5glfexqgreko6dnzy	70	6	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	70	7	study	study	NN
work_5ra3eporv5glfexqgreko6dnzy	70	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	70	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	70	10	results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	70	11	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	70	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	70	13	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	70	14	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	70	15	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	70	16	close	close	JJ
work_5ra3eporv5glfexqgreko6dnzy	70	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	70	18	which	which	WDT
work_5ra3eporv5glfexqgreko6dnzy	70	19	indicates	indicate	VBZ
work_5ra3eporv5glfexqgreko6dnzy	70	20	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	70	21	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	70	22	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	70	23	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	70	24	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	70	25	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	70	26	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	70	27	more	more	RBR
work_5ra3eporv5glfexqgreko6dnzy	70	28	important	important	JJ
work_5ra3eporv5glfexqgreko6dnzy	70	29	than	than	IN
work_5ra3eporv5glfexqgreko6dnzy	70	30	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	70	31	exact	exact	JJ
work_5ra3eporv5glfexqgreko6dnzy	70	32	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	70	33	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	70	34	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	70	35	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	71	1	3.2	3.2	CD
work_5ra3eporv5glfexqgreko6dnzy	71	2	Scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	71	3	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	71	4	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	71	5	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	71	6	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	71	7	Applications	Applications	NNPS
work_5ra3eporv5glfexqgreko6dnzy	71	8	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	71	9	Results	Results	NNPS
work_5ra3eporv5glfexqgreko6dnzy	71	10	Since	since	IN
work_5ra3eporv5glfexqgreko6dnzy	71	11	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	71	12	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	71	13	important	important	JJ
work_5ra3eporv5glfexqgreko6dnzy	71	14	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	71	15	detect	detect	VB
work_5ra3eporv5glfexqgreko6dnzy	71	16	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	71	17	need	need	NN
work_5ra3eporv5glfexqgreko6dnzy	71	18	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	71	19	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	71	20	very	very	RB
work_5ra3eporv5glfexqgreko6dnzy	71	21	quickly	quickly	RB
work_5ra3eporv5glfexqgreko6dnzy	71	22	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	71	23	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	71	24	complete	complete	VB
work_5ra3eporv5glfexqgreko6dnzy	71	25	all	all	DT
work_5ra3eporv5glfexqgreko6dnzy	71	26	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	71	27	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	71	28	before	before	IN
work_5ra3eporv5glfexqgreko6dnzy	71	29	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	71	30	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	71	31	can	can	MD
work_5ra3eporv5glfexqgreko6dnzy	71	32	decay	decay	VB
work_5ra3eporv5glfexqgreko6dnzy	71	33	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	71	34	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	71	35	hazardous	hazardous	JJ
work_5ra3eporv5glfexqgreko6dnzy	71	36	level	level	NN
work_5ra3eporv5glfexqgreko6dnzy	71	37	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	71	38	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	71	39	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	71	40	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	71	41	suggested	suggest	VBN
work_5ra3eporv5glfexqgreko6dnzy	71	42	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	71	43	provided	provide	VBN
work_5ra3eporv5glfexqgreko6dnzy	71	44	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	71	45	help	help	VB
work_5ra3eporv5glfexqgreko6dnzy	71	46	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	71	47	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	71	48	part	part	NN
work_5ra3eporv5glfexqgreko6dnzy	71	49	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	71	50	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	71	51	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	71	52	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	72	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	72	2	simulation	simulation	NN
work_5ra3eporv5glfexqgreko6dnzy	72	3	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	72	4	has	have	VBZ
work_5ra3eporv5glfexqgreko6dnzy	72	5	been	be	VBN
work_5ra3eporv5glfexqgreko6dnzy	72	6	developed	develop	VBN
work_5ra3eporv5glfexqgreko6dnzy	72	7	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	72	8	integrate	integrate	VB
work_5ra3eporv5glfexqgreko6dnzy	72	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	72	10	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	72	11	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	72	12	module	module	NN
work_5ra3eporv5glfexqgreko6dnzy	72	13	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	73	1	As	as	IN
work_5ra3eporv5glfexqgreko6dnzy	73	2	shown	show	VBN
work_5ra3eporv5glfexqgreko6dnzy	73	3	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	73	4	Fig.4	Fig.4	NNP
work_5ra3eporv5glfexqgreko6dnzy	73	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	73	6	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	73	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	73	8	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	73	9	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	73	10	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	73	11	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	73	12	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	73	13	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	73	14	used	use	VBN
work_5ra3eporv5glfexqgreko6dnzy	73	15	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	73	16	simulate	simulate	VB
work_5ra3eporv5glfexqgreko6dnzy	73	17	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	73	18	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	73	19	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	73	20	behavior	behavior	NN
work_5ra3eporv5glfexqgreko6dnzy	73	21	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	74	1	Hence	hence	RB
work_5ra3eporv5glfexqgreko6dnzy	74	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	74	3	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	74	4	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	74	5	module	module	NN
work_5ra3eporv5glfexqgreko6dnzy	74	6	exchanges	exchange	NNS
work_5ra3eporv5glfexqgreko6dnzy	74	7	information	information	VBP
work_5ra3eporv5glfexqgreko6dnzy	74	8	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	74	9	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	74	10	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	74	11	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	75	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	75	2	interface	interface	NN
work_5ra3eporv5glfexqgreko6dnzy	75	3	module	module	NN
work_5ra3eporv5glfexqgreko6dnzy	75	4	takes	take	VBZ
work_5ra3eporv5glfexqgreko6dnzy	75	5	care	care	NN
work_5ra3eporv5glfexqgreko6dnzy	75	6	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	75	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	75	8	presentation	presentation	NN
work_5ra3eporv5glfexqgreko6dnzy	75	9	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	75	10	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	75	11	solutions	solution	NNS
work_5ra3eporv5glfexqgreko6dnzy	75	12	proposed	propose	VBN
work_5ra3eporv5glfexqgreko6dnzy	75	13	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	75	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	75	15	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	75	16	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	75	17	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	75	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	75	19	sequence	sequence	NN
work_5ra3eporv5glfexqgreko6dnzy	75	20	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	75	21	applied	applied	JJ
work_5ra3eporv5glfexqgreko6dnzy	75	22	rules	rule	NNS
work_5ra3eporv5glfexqgreko6dnzy	75	23	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	76	1	This	this	DT
work_5ra3eporv5glfexqgreko6dnzy	76	2	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	76	3	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	76	4	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	76	5	applied	apply	VBN
work_5ra3eporv5glfexqgreko6dnzy	76	6	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	76	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	76	8	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	76	9	protective	protective	JJ
work_5ra3eporv5glfexqgreko6dnzy	76	10	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	76	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	76	12	i.e.	i.e.	FW
work_5ra3eporv5glfexqgreko6dnzy	76	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	76	14	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	76	15	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	76	16	used	use	VBN
work_5ra3eporv5glfexqgreko6dnzy	76	17	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	76	18	identify	identify	VB
work_5ra3eporv5glfexqgreko6dnzy	76	19	very	very	RB
work_5ra3eporv5glfexqgreko6dnzy	76	20	fast	fast	RB
work_5ra3eporv5glfexqgreko6dnzy	76	21	,	,	.
work_5ra3eporv5glfexqgreko6dnzy	76	22	1-	1-	LS
work_5ra3eporv5glfexqgreko6dnzy	76	23	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	76	24	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	76	25	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	76	26	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	76	27	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	76	28	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	76	29	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	76	30	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	76	31	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	76	32	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	76	33	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	76	34	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	76	35	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	76	36	occurred	occur	VBD
work_5ra3eporv5glfexqgreko6dnzy	76	37	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	76	38	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	76	39	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	76	40	objective	objective	NN
work_5ra3eporv5glfexqgreko6dnzy	76	41	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	77	1	2-	2-	LS
work_5ra3eporv5glfexqgreko6dnzy	77	2	after	after	IN
work_5ra3eporv5glfexqgreko6dnzy	77	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	77	4	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	77	5	objective	objective	NN
work_5ra3eporv5glfexqgreko6dnzy	77	6	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	77	7	fulfilled	fulfil	VBN
work_5ra3eporv5glfexqgreko6dnzy	77	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	77	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	77	10	second	second	JJ
work_5ra3eporv5glfexqgreko6dnzy	77	11	objective	objective	NN
work_5ra3eporv5glfexqgreko6dnzy	77	12	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	77	13	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	77	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	77	15	identification	identification	NN
work_5ra3eporv5glfexqgreko6dnzy	77	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	77	17	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	77	18	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	77	19	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	77	20	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	77	21	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	77	22	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	77	23	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	77	24	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	77	25	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	77	26	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	77	27	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	77	28	4-	4-	CD
work_5ra3eporv5glfexqgreko6dnzy	77	29	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	77	30	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	77	31	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	77	32	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	77	33	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	77	34	or	or	CC
work_5ra3eporv5glfexqgreko6dnzy	77	35	6-steps	6-steps	CD
work_5ra3eporv5glfexqgreko6dnzy	77	36	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	77	37	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	77	38	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	77	39	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	78	1	3-	3-	DT
work_5ra3eporv5glfexqgreko6dnzy	78	2	identification	identification	NN
work_5ra3eporv5glfexqgreko6dnzy	78	3	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	78	4	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	78	5	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	78	6	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	78	7	corresponding	correspond	VBG
work_5ra3eporv5glfexqgreko6dnzy	78	8	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	78	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	78	10	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	78	11	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	78	12	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	78	13	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	78	14	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	78	15	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	78	16	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	78	17	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	79	1	Plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	79	2	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	79	3	Rule3	rule3	CD
work_5ra3eporv5glfexqgreko6dnzy	79	4	Rule4	rule4	CD
work_5ra3eporv5glfexqgreko6dnzy	79	5	Rule5	rule5	NN
work_5ra3eporv5glfexqgreko6dnzy	79	6	Rule6	Rule6	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	7	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	79	8	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	79	9	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	79	10	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	79	11	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	79	12	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	79	13	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	79	14	THEN	THEN	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	15	Proceedings	Proceedings	NNPS
work_5ra3eporv5glfexqgreko6dnzy	79	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	79	17	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	79	18	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	79	19	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	20	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	21	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	79	22	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	79	23	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	79	24	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	79	25	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	26	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	79	27	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	28	1E-1	1e-1	CD
work_5ra3eporv5glfexqgreko6dnzy	79	29	1048	1048	CD
work_5ra3eporv5glfexqgreko6dnzy	79	30	3,2.1	3,2.1	NNP
work_5ra3eporv5glfexqgreko6dnzy	79	31	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	80	1	Production	production	NN
work_5ra3eporv5glfexqgreko6dnzy	80	2	rules	rule	VBZ
work_5ra3eporv5glfexqgreko6dnzy	80	3	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	80	4	following	follow	VBG
work_5ra3eporv5glfexqgreko6dnzy	80	5	rules	rule	NNS
work_5ra3eporv5glfexqgreko6dnzy	80	6	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	80	7	proposed	propose	VBN
work_5ra3eporv5glfexqgreko6dnzy	80	8	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	80	9	determine	determine	VB
work_5ra3eporv5glfexqgreko6dnzy	80	10	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	80	11	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	80	12	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	80	13	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	80	14	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	80	15	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	80	16	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	80	17	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	80	18	unknown	unknown	JJ
work_5ra3eporv5glfexqgreko6dnzy	80	19	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	80	20	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	80	21	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	80	22	also	also	RB
work_5ra3eporv5glfexqgreko6dnzy	80	23	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	80	24	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	80	25	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	80	26	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	80	27	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	80	28	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	80	29	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	80	30	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	80	31	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	80	32	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	80	33	or	or	CC
work_5ra3eporv5glfexqgreko6dnzy	80	34	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	80	35	level	level	NN
work_5ra3eporv5glfexqgreko6dnzy	80	36	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	80	37	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	80	38	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	80	39	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	80	40	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	80	41	see	see	VB
work_5ra3eporv5glfexqgreko6dnzy	80	42	flow	flow	NN
work_5ra3eporv5glfexqgreko6dnzy	80	43	chart	chart	NN
work_5ra3eporv5glfexqgreko6dnzy	80	44	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	80	45	Fig	Fig	NNP
work_5ra3eporv5glfexqgreko6dnzy	80	46	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	81	1	5	5	LS
work_5ra3eporv5glfexqgreko6dnzy	81	2	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	81	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	82	1	Rule1	Rule1	JJR
work_5ra3eporv5glfexqgreko6dnzy	82	2	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	82	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	4	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	5	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	82	6	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	7	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	82	8	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	9	declined	decline	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	10	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	82	11	57.0Hz	57.0Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	82	12	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	82	13	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	82	14	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	82	15	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	16	subjected	subject	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	17	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	82	18	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	82	19	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	20	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	82	21	Rule2	rule2	VB
work_5ra3eporv5glfexqgreko6dnzy	82	22	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	82	23	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	24	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	25	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	82	26	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	27	matched	match	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	28	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	82	29	that	that	DT
work_5ra3eporv5glfexqgreko6dnzy	82	30	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	31	database	database	NN
work_5ra3eporv5glfexqgreko6dnzy	82	32	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	82	33	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	34	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	35	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	36	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	82	37	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	82	38	identified	identify	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	39	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	40	study	study	NN
work_5ra3eporv5glfexqgreko6dnzy	82	41	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	42	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	43	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	82	44	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	45	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	82	46	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	82	47	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	48	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	49	four	four	CD
work_5ra3eporv5glfexqgreko6dnzy	82	50	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	51	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	52	number	number	NN
work_5ra3eporv5glfexqgreko6dnzy	82	53	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	82	54	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	55	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	56	four	four	CD
work_5ra3eporv5glfexqgreko6dnzy	82	57	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	58	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	82	59	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	60	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	61	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	62	all	all	DT
work_5ra3eporv5glfexqgreko6dnzy	82	63	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	64	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	65	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	82	66	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	67	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	82	68	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	69	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	70	stepl	stepl	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	71	set	set	VBP
work_5ra3eporv5glfexqgreko6dnzy	82	72	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	73	initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	74	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	75	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	82	76	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	77	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	82	78	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	79	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	80	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	82	81	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	82	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	82	83	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	84	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	85	last	last	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	86	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	82	87	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	88	must	must	MD
work_5ra3eporv5glfexqgreko6dnzy	82	89	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	82	90	58Hz	58hz	CD
work_5ra3eporv5glfexqgreko6dnzy	82	91	Pian2	pian2	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	92	Ruie7	ruie7	NN
work_5ra3eporv5glfexqgreko6dnzy	82	93	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	82	94	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	82	95	RuIe8	ruie8	XX
work_5ra3eporv5glfexqgreko6dnzy	82	96	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	82	97	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	82	98	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	82	99	Ruler9	Ruler9	NNP
work_5ra3eporv5glfexqgreko6dnzy	82	100	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	82	101	THEN	THEN	NNP
work_5ra3eporv5glfexqgreko6dnzy	82	102	Rule	Rule	NNP
work_5ra3eporv5glfexqgreko6dnzy	82	103	i0	i0	NNP
work_5ra3eporv5glfexqgreko6dnzy	82	104	IF	if	IN
work_5ra3eporv5glfexqgreko6dnzy	82	105	THEN	then	RB
work_5ra3eporv5glfexqgreko6dnzy	82	106	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	107	study	study	NN
work_5ra3eporv5glfexqgreko6dnzy	82	108	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	109	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	110	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	82	111	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	112	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	82	113	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	82	114	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	115	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	116	six	six	CD
work_5ra3eporv5glfexqgreko6dnzy	82	117	unequal	unequal	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	118	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	119	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	120	number	number	NN
work_5ra3eporv5glfexqgreko6dnzy	82	121	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	82	122	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	123	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	124	six	six	CD
work_5ra3eporv5glfexqgreko6dnzy	82	125	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	126	larger	large	JJR
work_5ra3eporv5glfexqgreko6dnzy	82	127	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	128	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	82	129	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	130	first	first	RB
work_5ra3eporv5glfexqgreko6dnzy	82	131	followed	follow	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	132	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	82	133	smaller	small	JJR
work_5ra3eporv5glfexqgreko6dnzy	82	134	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	82	135	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	82	136	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	137	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	138	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	82	139	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	140	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	82	141	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	142	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	143	step1	step1	NN
work_5ra3eporv5glfexqgreko6dnzy	82	144	set	set	VBN
work_5ra3eporv5glfexqgreko6dnzy	82	145	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	146	initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	82	147	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	148	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	82	149	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	150	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	82	151	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	82	152	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	82	153	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	82	154	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	82	155	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	82	156	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	82	157	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	82	158	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	82	159	six	six	CD
work_5ra3eporv5glfexqgreko6dnzy	82	160	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	82	161	must	must	MD
work_5ra3eporv5glfexqgreko6dnzy	82	162	Pe	pe	PRP
work_5ra3eporv5glfexqgreko6dnzy	82	163	58.5Hz	58.5hz	RB
work_5ra3eporv5glfexqgreko6dnzy	82	164	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	83	1	Results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	83	2	Sequence	sequence	NN
work_5ra3eporv5glfexqgreko6dnzy	83	3	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	83	4	Rules	Rules	NNPS
work_5ra3eporv5glfexqgreko6dnzy	83	5	Rule1	Rule1	,
work_5ra3eporv5glfexqgreko6dnzy	83	6	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	83	7	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	83	8	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	83	9	subjected	subject	VBN
work_5ra3eporv5glfexqgreko6dnzy	83	10	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	83	11	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	83	12	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	83	13	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	83	14	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	84	1	Rule2	rule2	UH
work_5ra3eporv5glfexqgreko6dnzy	84	2	consider	consider	VB
work_5ra3eporv5glfexqgreko6dnzy	84	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	84	4	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	84	5	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	84	6	subjected	subject	VBN
work_5ra3eporv5glfexqgreko6dnzy	84	7	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	84	8	new	new	JJ
work_5ra3eporv5glfexqgreko6dnzy	84	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	84	10	disturbances	disturbance	NNS
work_5ra3eporv5glfexqgreko6dnzy	84	11	0.70p.u	0.70p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	84	12	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	84	13	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	84	14	0.90p.u	0.90p.u	CD
work_5ra3eporv5glfexqgreko6dnzy	84	15	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	85	1	If	if	IN
work_5ra3eporv5glfexqgreko6dnzy	85	2	these	these	DT
work_5ra3eporv5glfexqgreko6dnzy	85	3	values	value	NNS
work_5ra3eporv5glfexqgreko6dnzy	85	4	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	85	5	not	not	RB
work_5ra3eporv5glfexqgreko6dnzy	85	6	matched	match	VBN
work_5ra3eporv5glfexqgreko6dnzy	85	7	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	85	8	those	those	DT
work_5ra3eporv5glfexqgreko6dnzy	85	9	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	85	10	database	database	NN
work_5ra3eporv5glfexqgreko6dnzy	85	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	85	12	they	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	85	13	must	must	MD
work_5ra3eporv5glfexqgreko6dnzy	85	14	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	85	15	approximated	approximate	VBN
work_5ra3eporv5glfexqgreko6dnzy	85	16	Plan1	plan1	CD
work_5ra3eporv5glfexqgreko6dnzy	85	17	Rule3	rule3	NN
work_5ra3eporv5glfexqgreko6dnzy	85	18	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	85	19	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	85	20	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	85	21	number	number	NN
work_5ra3eporv5glfexqgreko6dnzy	85	22	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	85	23	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	85	24	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	85	25	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	85	26	Rule4	rule4	JJ
work_5ra3eporv5glfexqgreko6dnzy	85	27	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	85	28	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	85	29	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	85	30	shed	shed	NN
work_5ra3eporv5glfexqgreko6dnzy	85	31	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	85	32	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	85	33	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	85	34	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	85	35	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	85	36	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	85	37	;	;	:
work_5ra3eporv5glfexqgreko6dnzy	85	38	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	85	39	0.70p.0	0.70p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	85	40	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	85	41	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	85	42	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	85	43	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	85	44	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	85	45	shed=0.36p.u	shed=0.36p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	85	46	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	86	1	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	86	2	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	86	3	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	86	4	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	86	5	step=0.09p.u	step=0.09p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	86	6	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	87	1	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	87	2	0.90p.0	0.90p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	87	3	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	87	4	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	87	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	87	6	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	87	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	87	8	shed=0.56p.u	shed=0.56p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	87	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	87	10	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	87	11	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	87	12	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	87	13	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	87	14	step=0.14p.u	step=0.14p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	87	15	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	88	1	Rule5	rule5	LS
work_5ra3eporv5glfexqgreko6dnzy	88	2	initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	88	3	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	88	4	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	88	5	set	set	VBN
work_5ra3eporv5glfexqgreko6dnzy	88	6	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	88	7	59.5Hz	59.5Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	88	9	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	88	10	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	88	11	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	88	12	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	88	13	0.5Hz	0.5hz	CD
work_5ra3eporv5glfexqgreko6dnzy	88	14	Proceedings	Proceedings	NNPS
work_5ra3eporv5glfexqgreko6dnzy	88	15	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	88	16	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	88	17	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	88	18	ASA	ASA	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	19	T	T	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	20	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	21	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	88	22	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	88	23	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	88	24	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	88	25	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	26	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	88	27	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	28	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	88	29	1049	1049	CD
work_5ra3eporv5glfexqgreko6dnzy	88	30	Rule6	rule6	NN
work_5ra3eporv5glfexqgreko6dnzy	88	31	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	88	32	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	88	33	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	88	34	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	88	35	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	88	36	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	88	37	different	different	JJ
work_5ra3eporv5glfexqgreko6dnzy	88	38	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	88	39	levels	level	NNS
work_5ra3eporv5glfexqgreko6dnzy	88	40	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	88	41	0.5Hz	0.5hz	CD
work_5ra3eporv5glfexqgreko6dnzy	88	42	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	88	43	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	88	44	frequencv(Hz	frequencv(hz	CD
work_5ra3eporv5glfexqgreko6dnzy	88	45	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	89	1	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	89	2	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	89	3	load	load	VB
work_5ra3eporv5glfexqgreko6dnzy	89	4	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	89	5	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	89	6	shed(p.u)for	shed(p.u)for	NN
work_5ra3eporv5glfexqgreko6dnzy	89	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	89	8	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	89	9	0.70p.0	0.70p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	10	0.90p.0	0.90p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	11	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	89	12	59.5	59.5	CD
work_5ra3eporv5glfexqgreko6dnzy	89	13	0.09	0.09	CD
work_5ra3eporv5glfexqgreko6dnzy	89	14	0.14	0.14	CD
work_5ra3eporv5glfexqgreko6dnzy	89	15	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	89	16	59.0	59.0	CD
work_5ra3eporv5glfexqgreko6dnzy	89	17	0.09	0.09	CD
work_5ra3eporv5glfexqgreko6dnzy	89	18	0.14	0.14	CD
work_5ra3eporv5glfexqgreko6dnzy	89	19	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	89	20	58.5	58.5	CD
work_5ra3eporv5glfexqgreko6dnzy	89	21	0.09	0.09	CD
work_5ra3eporv5glfexqgreko6dnzy	89	22	0.14	0.14	CD
work_5ra3eporv5glfexqgreko6dnzy	89	23	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	89	24	58.0	58.0	CD
work_5ra3eporv5glfexqgreko6dnzy	89	25	0.09	0.09	CD
work_5ra3eporv5glfexqgreko6dnzy	89	26	0.14	0.14	CD
work_5ra3eporv5glfexqgreko6dnzy	89	27	Plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	89	28	Rule7	Rule7	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	29	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	89	30	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	89	31	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	89	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	89	33	number	number	NN
work_5ra3eporv5glfexqgreko6dnzy	89	34	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	89	35	steps=6	steps=6	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	36	Rule8	rule8	CD
work_5ra3eporv5glfexqgreko6dnzy	89	37	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	89	38	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	89	39	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	89	40	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	89	41	shed	shed	NN
work_5ra3eporv5glfexqgreko6dnzy	89	42	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	89	43	0.36p.0	0.36p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	44	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	89	45	0.70p.0	0.70p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	46	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	89	47	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	89	48	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	89	49	0.56p.0	0.56p.0	NN
work_5ra3eporv5glfexqgreko6dnzy	89	50	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	89	51	0.90p.0	0.90p.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	89	52	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	89	53	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	89	54	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	90	1	Rule9	Rule9	NFP
work_5ra3eporv5glfexqgreko6dnzy	90	2	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	90	3	initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	90	4	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	90	5	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	90	6	set	set	VBN
work_5ra3eporv5glfexqgreko6dnzy	90	7	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	90	8	59.5Hz	59.5Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	90	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	90	10	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	90	11	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	90	12	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	90	13	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	90	14	0.2Hz	0.2hz	CD
work_5ra3eporv5glfexqgreko6dnzy	90	15	Rule10	rule10	CD
work_5ra3eporv5glfexqgreko6dnzy	90	16	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	90	17	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	90	18	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	90	19	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	90	20	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	90	21	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	90	22	different	different	JJ
work_5ra3eporv5glfexqgreko6dnzy	90	23	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	90	24	level	level	NN
work_5ra3eporv5glfexqgreko6dnzy	90	25	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	90	26	0.2Hz	0.2hz	CD
work_5ra3eporv5glfexqgreko6dnzy	90	27	interval	interval	JJ
work_5ra3eporv5glfexqgreko6dnzy	90	28	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	90	29	frequencv(HZ	frequencv(hz	NN
work_5ra3eporv5glfexqgreko6dnzy	90	30	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	90	31	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	90	32	load	load	VB
work_5ra3eporv5glfexqgreko6dnzy	90	33	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	90	34	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	90	35	shed(p.u)for	shed(p.u)for	NN
work_5ra3eporv5glfexqgreko6dnzy	90	36	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	90	37	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	90	38	0.700	0.700	CD
work_5ra3eporv5glfexqgreko6dnzy	90	39	0.900	0.900	CD
work_5ra3eporv5glfexqgreko6dnzy	90	40	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	90	41	59.5	59.5	CD
work_5ra3eporv5glfexqgreko6dnzy	90	42	0.069	0.069	CD
work_5ra3eporv5glfexqgreko6dnzy	90	43	0.106	0.106	CD
work_5ra3eporv5glfexqgreko6dnzy	90	44	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	90	45	59.3	59.3	CD
work_5ra3eporv5glfexqgreko6dnzy	90	46	0.069	0.069	CD
work_5ra3eporv5glfexqgreko6dnzy	90	47	0.106	0.106	CD
work_5ra3eporv5glfexqgreko6dnzy	90	48	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	90	49	59.1	59.1	CD
work_5ra3eporv5glfexqgreko6dnzy	90	50	0.057	0.057	CD
work_5ra3eporv5glfexqgreko6dnzy	90	51	0.089	0.089	CD
work_5ra3eporv5glfexqgreko6dnzy	90	52	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	90	53	58.9	58.9	CD
work_5ra3eporv5glfexqgreko6dnzy	90	54	0.057	0.057	CD
work_5ra3eporv5glfexqgreko6dnzy	90	55	0.089	0.089	CD
work_5ra3eporv5glfexqgreko6dnzy	90	56	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	90	57	58.7	58.7	CD
work_5ra3eporv5glfexqgreko6dnzy	90	58	0.054	0.054	CD
work_5ra3eporv5glfexqgreko6dnzy	90	59	0.085	0.085	CD
work_5ra3eporv5glfexqgreko6dnzy	90	60	6	6	CD
work_5ra3eporv5glfexqgreko6dnzy	90	61	58.5	58.5	CD
work_5ra3eporv5glfexqgreko6dnzy	90	62	0.054	0.054	CD
work_5ra3eporv5glfexqgreko6dnzy	90	63	0.085	0.085	CD
work_5ra3eporv5glfexqgreko6dnzy	90	64	Hint	Hint	NNP
work_5ra3eporv5glfexqgreko6dnzy	90	65	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	90	66	If	if	IN
work_5ra3eporv5glfexqgreko6dnzy	90	67	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	90	68	new	new	JJ
work_5ra3eporv5glfexqgreko6dnzy	90	69	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	90	70	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	90	71	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	90	72	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	90	73	mismatched	mismatch	VBN
work_5ra3eporv5glfexqgreko6dnzy	90	74	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	90	75	those	those	DT
work_5ra3eporv5glfexqgreko6dnzy	90	76	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	90	77	data	datum	NNS
work_5ra3eporv5glfexqgreko6dnzy	90	78	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	90	79	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	90	80	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	90	81	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	90	82	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	90	83	approximated	approximate	VBN
work_5ra3eporv5glfexqgreko6dnzy	90	84	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	90	85	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	90	86	nearest	near	JJS
work_5ra3eporv5glfexqgreko6dnzy	90	87	value	value	NN
work_5ra3eporv5glfexqgreko6dnzy	90	88	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	90	89	data	datum	NNS
work_5ra3eporv5glfexqgreko6dnzy	90	90	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	90	91	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	91	1	3.2.2	3.2.2	CD
work_5ra3eporv5glfexqgreko6dnzy	91	2	Comparisons	Comparisons	NNPS
work_5ra3eporv5glfexqgreko6dnzy	91	3	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	91	4	Discussions	Discussions	NNPS
work_5ra3eporv5glfexqgreko6dnzy	91	5	For	for	IN
work_5ra3eporv5glfexqgreko6dnzy	91	6	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	91	7	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	91	8	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	91	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	91	10	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	91	11	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	91	12	comparison	comparison	NN
work_5ra3eporv5glfexqgreko6dnzy	91	13	between	between	IN
work_5ra3eporv5glfexqgreko6dnzy	91	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	91	15	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	91	16	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	91	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	91	18	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	91	19	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	91	20	obvious	obvious	JJ
work_5ra3eporv5glfexqgreko6dnzy	91	21	that	that	DT
work_5ra3eporv5glfexqgreko6dnzy	91	22	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	91	23	they	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	91	24	both	both	DT
work_5ra3eporv5glfexqgreko6dnzy	91	25	have	have	VBP
work_5ra3eporv5glfexqgreko6dnzy	91	26	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	91	27	close	close	JJ
work_5ra3eporv5glfexqgreko6dnzy	91	28	view	view	NN
work_5ra3eporv5glfexqgreko6dnzy	91	29	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	91	30	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	91	31	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	91	32	frame	frame	NN
work_5ra3eporv5glfexqgreko6dnzy	91	33	when	when	WRB
work_5ra3eporv5glfexqgreko6dnzy	91	34	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	91	35	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	91	36	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	91	37	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	91	38	being	be	VBG
work_5ra3eporv5glfexqgreko6dnzy	91	39	initiated	initiate	VBN
work_5ra3eporv5glfexqgreko6dnzy	91	40	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	91	41	delay	delay	NN
work_5ra3eporv5glfexqgreko6dnzy	91	42	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	91	43	0.1second	0.1second	NFP
work_5ra3eporv5glfexqgreko6dnzy	91	44	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	91	45	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	92	1	And	and	CC
work_5ra3eporv5glfexqgreko6dnzy	92	2	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	92	3	since	since	IN
work_5ra3eporv5glfexqgreko6dnzy	92	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	5	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	92	6	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	92	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	8	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	92	9	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	92	10	shed	shed	NN
work_5ra3eporv5glfexqgreko6dnzy	92	11	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	92	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	13	same	same	JJ
work_5ra3eporv5glfexqgreko6dnzy	92	14	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	92	15	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	16	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	92	17	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	92	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	92	19	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	20	comparison	comparison	NN
work_5ra3eporv5glfexqgreko6dnzy	92	21	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	92	22	based	base	VBN
work_5ra3eporv5glfexqgreko6dnzy	92	23	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	92	24	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	25	running	running	NN
work_5ra3eporv5glfexqgreko6dnzy	92	26	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	92	27	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	92	28	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	92	29	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	92	30	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	92	31	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	92	32	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	93	1	It	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	93	2	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	93	3	found	find	VBN
work_5ra3eporv5glfexqgreko6dnzy	93	4	that	that	IN
work_5ra3eporv5glfexqgreko6dnzy	93	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	93	6	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	93	7	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	93	8	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	93	9	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	93	10	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	93	11	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	93	12	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	93	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	93	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	93	15	execution	execution	NN
work_5ra3eporv5glfexqgreko6dnzy	93	16	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	93	17	was	be	VBD
work_5ra3eporv5glfexqgreko6dnzy	93	18	0.39seconds	0.39second	NNS
work_5ra3eporv5glfexqgreko6dnzy	93	19	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	94	1	Therefore	therefore	RB
work_5ra3eporv5glfexqgreko6dnzy	94	2	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	94	3	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	94	4	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	94	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	94	6	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	94	7	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	94	8	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	94	9	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	94	10	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	94	11	running	run	VBG
work_5ra3eporv5glfexqgreko6dnzy	94	12	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	94	13	1.56	1.56	CD
work_5ra3eporv5glfexqgreko6dnzy	94	14	seconds	second	NNS
work_5ra3eporv5glfexqgreko6dnzy	94	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	94	16	while	while	IN
work_5ra3eporv5glfexqgreko6dnzy	94	17	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	94	18	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	94	19	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	94	20	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	94	21	running	running	NN
work_5ra3eporv5glfexqgreko6dnzy	94	22	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	94	23	was	be	VBD
work_5ra3eporv5glfexqgreko6dnzy	94	24	found	find	VBN
work_5ra3eporv5glfexqgreko6dnzy	94	25	2.34seconds	2.34second	NNS
work_5ra3eporv5glfexqgreko6dnzy	94	26	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	95	1	For	for	IN
work_5ra3eporv5glfexqgreko6dnzy	95	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	95	3	second	second	JJ
work_5ra3eporv5glfexqgreko6dnzy	95	4	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	95	5	;	;	:
work_5ra3eporv5glfexqgreko6dnzy	95	6	beside	beside	IN
work_5ra3eporv5glfexqgreko6dnzy	95	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	95	8	right	right	JJ
work_5ra3eporv5glfexqgreko6dnzy	95	9	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	95	10	accurate	accurate	JJ
work_5ra3eporv5glfexqgreko6dnzy	95	11	action	action	NN
work_5ra3eporv5glfexqgreko6dnzy	95	12	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	95	13	using	use	VBG
work_5ra3eporv5glfexqgreko6dnzy	95	14	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	95	15	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	95	16	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	95	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	95	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	95	19	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	95	20	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	95	21	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	95	22	searching	search	VBG
work_5ra3eporv5glfexqgreko6dnzy	95	23	through	through	IN
work_5ra3eporv5glfexqgreko6dnzy	95	24	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	95	25	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	95	26	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	95	27	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	95	28	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	95	29	make	make	VB
work_5ra3eporv5glfexqgreko6dnzy	95	30	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	95	31	decision	decision	NN
work_5ra3eporv5glfexqgreko6dnzy	95	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	95	33	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	95	34	found	find	VBN
work_5ra3eporv5glfexqgreko6dnzy	95	35	too	too	RB
work_5ra3eporv5glfexqgreko6dnzy	95	36	small	small	JJ
work_5ra3eporv5glfexqgreko6dnzy	95	37	compared	compare	VBN
work_5ra3eporv5glfexqgreko6dnzy	95	38	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	95	39	that	that	DT
work_5ra3eporv5glfexqgreko6dnzy	95	40	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	95	41	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	95	42	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	95	43	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	95	44	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	95	45	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	95	46	0.59	0.59	CD
work_5ra3eporv5glfexqgreko6dnzy	95	47	seconds	second	NNS
work_5ra3eporv5glfexqgreko6dnzy	95	48	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	95	49	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	95	50	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	95	51	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	95	52	0.81seconds	0.81second	NNS
work_5ra3eporv5glfexqgreko6dnzy	95	53	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	95	54	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	95	55	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	95	56	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	96	1	Therefore	therefore	RB
work_5ra3eporv5glfexqgreko6dnzy	96	2	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	96	3	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	96	4	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	96	5	considered	consider	VBN
work_5ra3eporv5glfexqgreko6dnzy	96	6	simple	simple	JJ
work_5ra3eporv5glfexqgreko6dnzy	96	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	96	8	fast	fast	RB
work_5ra3eporv5glfexqgreko6dnzy	96	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	96	10	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	96	11	accurate	accurate	JJ
work_5ra3eporv5glfexqgreko6dnzy	96	12	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	96	13	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	96	14	area	area	NN
work_5ra3eporv5glfexqgreko6dnzy	96	15	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	96	16	study	study	NN
work_5ra3eporv5glfexqgreko6dnzy	96	17	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	97	1	Both	both	DT
work_5ra3eporv5glfexqgreko6dnzy	97	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	97	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	97	4	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	97	5	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	97	6	's	's	POS
work_5ra3eporv5glfexqgreko6dnzy	97	7	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	97	8	would	would	MD
work_5ra3eporv5glfexqgreko6dnzy	97	9	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	97	10	executing	execute	VBG
work_5ra3eporv5glfexqgreko6dnzy	97	11	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	97	12	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	97	13	computer	computer	NN
work_5ra3eporv5glfexqgreko6dnzy	97	14	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	97	15	main	main	JJ
work_5ra3eporv5glfexqgreko6dnzy	97	16	processor	processor	NN
work_5ra3eporv5glfexqgreko6dnzy	97	17	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	97	18	Intel	Intel	NNP
work_5ra3eporv5glfexqgreko6dnzy	97	19	Pentium	Pentium	NNP
work_5ra3eporv5glfexqgreko6dnzy	97	20	W	W	NNP
work_5ra3eporv5glfexqgreko6dnzy	97	21	733MHz	733MHz	NNP
work_5ra3eporv5glfexqgreko6dnzy	97	22	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	97	23	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	97	24	Cash	cash	NN
work_5ra3eporv5glfexqgreko6dnzy	97	25	memory	memory	NN
work_5ra3eporv5glfexqgreko6dnzy	97	26	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	97	27	256k	256k	CD
work_5ra3eporv5glfexqgreko6dnzy	97	28	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	97	29	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	97	30	64	64	CD
work_5ra3eporv5glfexqgreko6dnzy	97	31	MB	mb	NN
work_5ra3eporv5glfexqgreko6dnzy	97	32	Ram	Ram	NNP
work_5ra3eporv5glfexqgreko6dnzy	97	33	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	98	1	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	98	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	98	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	98	4	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	98	5	m	m	NNP
work_5ra3eporv5glfexqgreko6dnzy	98	6	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	98	7	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	98	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	98	9	1345	1345	CD
work_5ra3eporv5glfexqgreko6dnzy	98	10	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	98	11	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	98	12	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	98	13	1E4	1e4	CD
work_5ra3eporv5glfexqgreko6dnzy	98	14	1050	1050	CD
work_5ra3eporv5glfexqgreko6dnzy	98	15	4.CONCLUSUIONS	4.conclusuions	CD
work_5ra3eporv5glfexqgreko6dnzy	98	16	Two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	98	17	schemes	scheme	NNS
work_5ra3eporv5glfexqgreko6dnzy	98	18	were	be	VBD
work_5ra3eporv5glfexqgreko6dnzy	98	19	proposed	propose	VBN
work_5ra3eporv5glfexqgreko6dnzy	98	20	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	98	21	suggested	suggest	VBN
work_5ra3eporv5glfexqgreko6dnzy	98	22	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	98	23	determining	determine	VBG
work_5ra3eporv5glfexqgreko6dnzy	98	24	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	98	25	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	98	26	amount	amount	NN
work_5ra3eporv5glfexqgreko6dnzy	98	27	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	98	28	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	98	29	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	98	30	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	98	31	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	98	32	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	98	33	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	98	34	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	98	35	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	98	36	caused	cause	VBN
work_5ra3eporv5glfexqgreko6dnzy	98	37	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	98	38	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	98	39	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	98	40	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	98	41	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	98	42	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	99	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	99	2	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	99	3	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	99	4	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	99	5	based	base	VBN
work_5ra3eporv5glfexqgreko6dnzy	99	6	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	99	7	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	99	8	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	99	9	detection	detection	NN
work_5ra3eporv5glfexqgreko6dnzy	99	10	by	by	IN
work_5ra3eporv5glfexqgreko6dnzy	99	11	using	use	VBG
work_5ra3eporv5glfexqgreko6dnzy	99	12	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	99	13	linear	linear	JJ
work_5ra3eporv5glfexqgreko6dnzy	99	14	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	99	15	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	99	16	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	99	17	model	model	NN
work_5ra3eporv5glfexqgreko6dnzy	99	18	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	100	1	This	this	DT
work_5ra3eporv5glfexqgreko6dnzy	100	2	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	100	3	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	100	4	applied	apply	VBN
work_5ra3eporv5glfexqgreko6dnzy	100	5	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	100	6	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	100	7	plans	plan	NNS
work_5ra3eporv5glfexqgreko6dnzy	100	8	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	101	1	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	101	2	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	101	3	plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	101	4	deals	deal	VBZ
work_5ra3eporv5glfexqgreko6dnzy	101	5	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	101	6	four	four	CD
work_5ra3eporv5glfexqgreko6dnzy	101	7	equal	equal	JJ
work_5ra3eporv5glfexqgreko6dnzy	101	8	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	101	9	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	101	10	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	101	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	101	12	while	while	IN
work_5ra3eporv5glfexqgreko6dnzy	101	13	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	101	14	second	second	JJ
work_5ra3eporv5glfexqgreko6dnzy	101	15	plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	101	16	consists	consist	VBZ
work_5ra3eporv5glfexqgreko6dnzy	101	17	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	101	18	six	six	CD
work_5ra3eporv5glfexqgreko6dnzy	101	19	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	101	20	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	101	21	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	101	22	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	101	23	unequal	unequal	JJ
work_5ra3eporv5glfexqgreko6dnzy	101	24	size	size	NN
work_5ra3eporv5glfexqgreko6dnzy	101	25	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	101	26	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	101	27	taken	take	VBN
work_5ra3eporv5glfexqgreko6dnzy	101	28	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	101	29	steps	step	NNS
work_5ra3eporv5glfexqgreko6dnzy	101	30	that	that	WDT
work_5ra3eporv5glfexqgreko6dnzy	101	31	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	101	32	closer	close	JJR
work_5ra3eporv5glfexqgreko6dnzy	101	33	together	together	RB
work_5ra3eporv5glfexqgreko6dnzy	101	34	than	than	IN
work_5ra3eporv5glfexqgreko6dnzy	101	35	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	101	36	first	first	JJ
work_5ra3eporv5glfexqgreko6dnzy	101	37	plan	plan	NN
work_5ra3eporv5glfexqgreko6dnzy	101	38	but	but	CC
work_5ra3eporv5glfexqgreko6dnzy	101	39	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	101	40	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	101	41	same	same	JJ
work_5ra3eporv5glfexqgreko6dnzy	101	42	total	total	NN
work_5ra3eporv5glfexqgreko6dnzy	101	43	shed	shed	NN
work_5ra3eporv5glfexqgreko6dnzy	101	44	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	102	1	As	as	IN
work_5ra3eporv5glfexqgreko6dnzy	102	2	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	102	3	size	size	NN
work_5ra3eporv5glfexqgreko6dnzy	102	4	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	102	5	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	102	6	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	102	7	may	may	MD
work_5ra3eporv5glfexqgreko6dnzy	102	8	increases	increase	VBZ
work_5ra3eporv5glfexqgreko6dnzy	102	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	102	10	there	there	EX
work_5ra3eporv5glfexqgreko6dnzy	102	11	will	will	MD
work_5ra3eporv5glfexqgreko6dnzy	102	12	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	102	13	greater	great	JJR
work_5ra3eporv5glfexqgreko6dnzy	102	14	need	need	NN
work_5ra3eporv5glfexqgreko6dnzy	102	15	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	102	16	rapid	rapid	JJ
work_5ra3eporv5glfexqgreko6dnzy	102	17	action	action	NN
work_5ra3eporv5glfexqgreko6dnzy	102	18	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	103	1	From	from	IN
work_5ra3eporv5glfexqgreko6dnzy	103	2	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	103	3	point	point	NN
work_5ra3eporv5glfexqgreko6dnzy	103	4	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	103	5	view	view	NN
work_5ra3eporv5glfexqgreko6dnzy	103	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	103	7	it	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	103	8	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	103	9	important	important	JJ
work_5ra3eporv5glfexqgreko6dnzy	103	10	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	103	11	determine	determine	VB
work_5ra3eporv5glfexqgreko6dnzy	103	12	very	very	RB
work_5ra3eporv5glfexqgreko6dnzy	103	13	quickly	quickly	RB
work_5ra3eporv5glfexqgreko6dnzy	103	14	how	how	WRB
work_5ra3eporv5glfexqgreko6dnzy	103	15	much	much	JJ
work_5ra3eporv5glfexqgreko6dnzy	103	16	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	103	17	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	103	18	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	103	19	required	require	VBN
work_5ra3eporv5glfexqgreko6dnzy	103	20	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	103	21	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	103	22	given	give	VBN
work_5ra3eporv5glfexqgreko6dnzy	103	23	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	103	24	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	104	1	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	104	2	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	104	3	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	104	4	suggested	suggest	VBN
work_5ra3eporv5glfexqgreko6dnzy	104	5	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	104	6	introduced	introduce	VBN
work_5ra3eporv5glfexqgreko6dnzy	104	7	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	104	8	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	104	9	second	second	JJ
work_5ra3eporv5glfexqgreko6dnzy	104	10	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	104	11	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	104	12	solve	solve	VB
work_5ra3eporv5glfexqgreko6dnzy	104	13	this	this	DT
work_5ra3eporv5glfexqgreko6dnzy	104	14	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	104	15	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	105	1	It	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	105	2	helps	help	VBZ
work_5ra3eporv5glfexqgreko6dnzy	105	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	105	4	operator	operator	NN
work_5ra3eporv5glfexqgreko6dnzy	105	5	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	105	6	take	take	VB
work_5ra3eporv5glfexqgreko6dnzy	105	7	his	-PRON-	PRP$
work_5ra3eporv5glfexqgreko6dnzy	105	8	decision	decision	NN
work_5ra3eporv5glfexqgreko6dnzy	105	9	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	105	10	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	105	11	higher	high	JJR
work_5ra3eporv5glfexqgreko6dnzy	105	12	level	level	NN
work_5ra3eporv5glfexqgreko6dnzy	105	13	without	without	IN
work_5ra3eporv5glfexqgreko6dnzy	105	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	105	15	need	need	NN
work_5ra3eporv5glfexqgreko6dnzy	105	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	105	17	applying	apply	VBG
work_5ra3eporv5glfexqgreko6dnzy	105	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	105	19	analytic	analytic	JJ
work_5ra3eporv5glfexqgreko6dnzy	105	20	programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	105	21	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	105	22	search	search	VB
work_5ra3eporv5glfexqgreko6dnzy	105	23	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	105	24	optimal	optimal	JJ
work_5ra3eporv5glfexqgreko6dnzy	105	25	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	105	26	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	105	27	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	105	28	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	105	29	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	105	30	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	105	31	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	105	32	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	105	33	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	105	34	every	every	DT
work_5ra3eporv5glfexqgreko6dnzy	105	35	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	105	36	level	level	NN
work_5ra3eporv5glfexqgreko6dnzy	105	37	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	106	1	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	106	2	comparison	comparison	NN
work_5ra3eporv5glfexqgreko6dnzy	106	3	between	between	IN
work_5ra3eporv5glfexqgreko6dnzy	106	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	106	5	two	two	CD
work_5ra3eporv5glfexqgreko6dnzy	106	6	schemes	scheme	NNS
work_5ra3eporv5glfexqgreko6dnzy	106	7	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	106	8	made	make	VBN
work_5ra3eporv5glfexqgreko6dnzy	106	9	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	106	10	good	good	JJ
work_5ra3eporv5glfexqgreko6dnzy	106	11	results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	106	12	are	be	VBP
work_5ra3eporv5glfexqgreko6dnzy	106	13	obtained	obtain	VBN
work_5ra3eporv5glfexqgreko6dnzy	106	14	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	107	1	REFERENCES	reference	NNS
work_5ra3eporv5glfexqgreko6dnzy	107	2	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	107	3	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	107	4	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	107	5	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	6	Committee	Committee	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	7	Report	Report	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	107	9	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	107	10	Survey	Survey	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	11	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	107	12	Under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	107	13	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	107	14	Relay	relay	NN
work_5ra3eporv5glfexqgreko6dnzy	107	15	Tripping	tripping	NN
work_5ra3eporv5glfexqgreko6dnzy	107	16	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	107	17	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	18	Under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	107	19	Emergency	Emergency	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	20	Conditions	Conditions	NNPS
work_5ra3eporv5glfexqgreko6dnzy	107	21	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	107	22	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	107	23	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	24	Trans	Trans	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	25	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	26	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	107	27	v	v	NN
work_5ra3eporv5glfexqgreko6dnzy	107	28	PAS-87	pas-87	CD
work_5ra3eporv5glfexqgreko6dnzy	107	29	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	107	30	March	March	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	31	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	107	32	pp.1362	pp.1362	NNP
work_5ra3eporv5glfexqgreko6dnzy	107	33	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	107	34	1366	1366	CD
work_5ra3eporv5glfexqgreko6dnzy	107	35	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	107	36	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	107	37	1968	1968	CD
work_5ra3eporv5glfexqgreko6dnzy	107	38	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	107	39	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	108	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	108	2	2	2	LS
work_5ra3eporv5glfexqgreko6dnzy	108	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	108	4	Malizewski	Malizewski	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	108	6	R.	R.	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	7	M.	M.	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	108	9	Dunlop	Dunlop	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	108	11	R.	R.	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	12	D.	D.	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	13	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	108	14	Wilson	Wilson	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	108	16	G.	G.	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	17	L.,"Frequency	L.,"Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	18	Actuated	Actuated	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	19	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	20	Shedding	Shedding	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	21	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	108	22	Restoration	Restoration	NNP
work_5ra3eporv5glfexqgreko6dnzy	108	23	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	109	1	Part	part	NN
work_5ra3eporv5glfexqgreko6dnzy	109	2	I.	I.	NNP
work_5ra3eporv5glfexqgreko6dnzy	110	1	Philosophy	philosophy	NN
work_5ra3eporv5glfexqgreko6dnzy	110	2	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	110	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	110	4	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	110	5	Trans	Trans	NNPS
work_5ra3eporv5glfexqgreko6dnzy	110	6	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	111	1	V	V	NNP
work_5ra3eporv5glfexqgreko6dnzy	111	2	PAS-90	pas-90	CD
work_5ra3eporv5glfexqgreko6dnzy	111	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	111	4	pp.1452	pp.1452	NNPS
work_5ra3eporv5glfexqgreko6dnzy	111	5	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	111	6	1459	1459	CD
work_5ra3eporv5glfexqgreko6dnzy	111	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	111	8	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	111	9	1971	1971	CD
work_5ra3eporv5glfexqgreko6dnzy	111	10	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	111	11	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	112	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	112	2	3	3	LS
work_5ra3eporv5glfexqgreko6dnzy	112	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	112	4	Horowitz	Horowitz	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	112	6	S.	S.	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	7	H.	H.	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	112	9	Politis	Politis	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	112	11	A.	a.	NN
work_5ra3eporv5glfexqgreko6dnzy	112	12	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	112	13	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	112	14	Gabrielle	Gabrielle	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	112	16	A.	a.	NN
work_5ra3eporv5glfexqgreko6dnzy	112	17	F.	F.	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	18	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	112	19	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	112	20	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	21	Actuated	Actuated	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	22	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	23	Shedding	Shedding	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	24	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	112	25	Restoration	Restoration	NNP
work_5ra3eporv5glfexqgreko6dnzy	112	26	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	113	1	Part	part	NN
work_5ra3eporv5glfexqgreko6dnzy	113	2	11	11	CD
work_5ra3eporv5glfexqgreko6dnzy	113	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	114	1	Implementation	implementation	NN
work_5ra3eporv5glfexqgreko6dnzy	114	2	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	114	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	114	4	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	114	5	Trans	Trans	NNP
work_5ra3eporv5glfexqgreko6dnzy	114	6	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	114	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	114	8	v	v	LS
work_5ra3eporv5glfexqgreko6dnzy	114	9	PAS-90	pas-90	CD
work_5ra3eporv5glfexqgreko6dnzy	114	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	114	11	pp.1460	pp.1460	NNP
work_5ra3eporv5glfexqgreko6dnzy	114	12	-	-	,
work_5ra3eporv5glfexqgreko6dnzy	114	13	1468	1468	CD
work_5ra3eporv5glfexqgreko6dnzy	114	14	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	114	15	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	114	16	1971	1971	CD
work_5ra3eporv5glfexqgreko6dnzy	114	17	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	114	18	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	115	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	115	2	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	115	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	115	4	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	5	Working	Working	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	6	Group	Group	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	7	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	115	8	Methods	Methods	NNPS
work_5ra3eporv5glfexqgreko6dnzy	115	9	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	115	10	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	11	Preservation	Preservation	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	12	During	during	IN
work_5ra3eporv5glfexqgreko6dnzy	115	13	Under-	Under-	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	14	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	15	Conditions	Conditions	NNPS
work_5ra3eporv5glfexqgreko6dnzy	115	16	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	115	17	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	115	18	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	115	19	Status	Status	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	20	Report	Report	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	21	on	on	IN
work_5ra3eporv5glfexqgreko6dnzy	115	22	Methods	Methods	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	23	Used	use	VBN
work_5ra3eporv5glfexqgreko6dnzy	115	24	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	115	25	System	system	NN
work_5ra3eporv5glfexqgreko6dnzy	115	26	Preservation	Preservation	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	27	During	during	IN
work_5ra3eporv5glfexqgreko6dnzy	115	28	Under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	115	29	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	30	Conditions	Conditions	NNPS
work_5ra3eporv5glfexqgreko6dnzy	115	31	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	115	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	115	33	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	34	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	35	Relaying	Relaying	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	36	Commetti	Commetti	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	37	Report	Report	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	38	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	115	39	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	115	40	Trans	Trans	NNPS
work_5ra3eporv5glfexqgreko6dnzy	115	41	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	116	1	V	V	NNP
work_5ra3eporv5glfexqgreko6dnzy	116	2	PAS-94	PAS-94	NNP
work_5ra3eporv5glfexqgreko6dnzy	116	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	116	4	n2	n2	NNP
work_5ra3eporv5glfexqgreko6dnzy	116	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	116	6	pp.360	pp.360	NNP
work_5ra3eporv5glfexqgreko6dnzy	116	7	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	116	8	366	366	CD
work_5ra3eporv5glfexqgreko6dnzy	116	9	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	116	10	1975	1975	CD
work_5ra3eporv5glfexqgreko6dnzy	116	11	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	116	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	117	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	117	2	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	117	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	117	4	P.	P.	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	5	M.	M.	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	6	Anderson	Anderson	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	7	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	117	8	M.	M.	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	9	Mirheydar	Mirheydar	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	117	11	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	117	12	An	an	DT
work_5ra3eporv5glfexqgreko6dnzy	117	13	Adaptive	adaptive	JJ
work_5ra3eporv5glfexqgreko6dnzy	117	14	Method	method	NN
work_5ra3eporv5glfexqgreko6dnzy	117	15	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	117	16	Setting	set	VBG
work_5ra3eporv5glfexqgreko6dnzy	117	17	Under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	117	18	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	19	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	20	Shedding	Shedding	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	21	Relays	Relays	NNPS
work_5ra3eporv5glfexqgreko6dnzy	117	22	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	117	23	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	117	24	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	117	25	Trans	Trans	NNPS
work_5ra3eporv5glfexqgreko6dnzy	117	26	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	118	1	On	on	IN
work_5ra3eporv5glfexqgreko6dnzy	118	2	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	118	3	Systems	Systems	NNPS
work_5ra3eporv5glfexqgreko6dnzy	118	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	118	5	vol.7,no.2	vol.7,no.2	NNP
work_5ra3eporv5glfexqgreko6dnzy	118	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	118	7	1992	1992	CD
work_5ra3eporv5glfexqgreko6dnzy	118	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	118	9	pp.647	pp.647	VBN
work_5ra3eporv5glfexqgreko6dnzy	118	10	-	-	,
work_5ra3eporv5glfexqgreko6dnzy	118	11	653	653	CD
work_5ra3eporv5glfexqgreko6dnzy	118	12	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	119	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	119	2	6	6	CD
work_5ra3eporv5glfexqgreko6dnzy	119	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	119	4	R.	R.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	5	S.	S.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	6	Hahn	Hahn	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	8	S.	S.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	9	Disgupta	Disgupta	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	11	E.	E.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	12	Baytch	Baytch	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	13	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	119	14	R.	R.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	15	D.	D.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	16	Willoughby	Willoughby	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	18	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	119	19	Maximum	Maximum	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	20	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	21	Decay	Decay	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	22	Rate	rate	NN
work_5ra3eporv5glfexqgreko6dnzy	119	23	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	119	24	Reactor	Reactor	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	25	Coolant	Coolant	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	26	Pump	Pump	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	27	Motors	Motors	NNPS
work_5ra3eporv5glfexqgreko6dnzy	119	28	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	119	29	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	30	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	31	Trans	Trans	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	32	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	33	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	34	v	v	LS
work_5ra3eporv5glfexqgreko6dnzy	119	35	NS26	NS26	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	36	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	37	pp.863	pp.863	NNP
work_5ra3eporv5glfexqgreko6dnzy	119	38	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	119	39	870	870	CD
work_5ra3eporv5glfexqgreko6dnzy	119	40	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	119	41	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	119	42	1977	1977	CD
work_5ra3eporv5glfexqgreko6dnzy	119	43	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	119	44	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	120	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	120	2	7	7	CD
work_5ra3eporv5glfexqgreko6dnzy	120	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	120	4	D.	D.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	5	W.	W.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	6	Smaha	Smaha	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	120	8	C.	C.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	9	R.	R.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	10	Rowland	Rowland	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	11	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	120	12	J.	J.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	13	W.	W.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	14	Pope	Pope	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	120	16	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	120	17	Coordination	Coordination	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	18	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	120	19	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	20	Conservation	Conservation	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	21	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	120	22	Turbine	Turbine	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	23	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	120	24	Generator	Generator	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	25	Underfrequency	Underfrequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	26	Protection	Protection	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	27	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	120	28	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	120	29	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	30	Trans	Trans	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	31	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	120	33	v	v	LS
work_5ra3eporv5glfexqgreko6dnzy	120	34	PAS-99	pas-99	CD
work_5ra3eporv5glfexqgreko6dnzy	120	35	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	120	36	pp.1137	pp.1137	NNP
work_5ra3eporv5glfexqgreko6dnzy	120	37	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	120	38	1150	1150	CD
work_5ra3eporv5glfexqgreko6dnzy	120	39	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	120	40	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	120	41	1980	1980	CD
work_5ra3eporv5glfexqgreko6dnzy	120	42	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	120	43	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	121	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	121	2	8	8	CD
work_5ra3eporv5glfexqgreko6dnzy	121	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	121	4	P.	P.	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	5	M.	M.	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	6	Anderson	Anderson	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	7	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	121	8	M.	M.	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	9	Mirheydar	Mirheydar	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	10	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	121	11	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	121	12	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	121	13	low	low	JJ
work_5ra3eporv5glfexqgreko6dnzy	121	14	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	121	15	Order	order	NN
work_5ra3eporv5glfexqgreko6dnzy	121	16	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	17	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	18	Response	Response	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	19	Model	Model	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	20	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	121	21	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	121	22	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	121	23	Trans	Trans	NNPS
work_5ra3eporv5glfexqgreko6dnzy	121	24	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	122	1	On	on	IN
work_5ra3eporv5glfexqgreko6dnzy	122	2	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	122	3	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	122	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	122	5	v	v	NN
work_5ra3eporv5glfexqgreko6dnzy	122	6	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	122	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	122	8	n.3	n.3	NNP
work_5ra3eporv5glfexqgreko6dnzy	122	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	122	10	pp.720	pp.720	NNP
work_5ra3eporv5glfexqgreko6dnzy	122	11	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	122	12	729	729	CD
work_5ra3eporv5glfexqgreko6dnzy	122	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	122	14	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	122	15	1990	1990	CD
work_5ra3eporv5glfexqgreko6dnzy	122	16	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	122	17	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	123	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	123	2	9	9	CD
work_5ra3eporv5glfexqgreko6dnzy	123	3	]	]	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	123	4	D.	D.	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	5	Reichelt	Reichelt	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	6	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	123	7	H.	H.	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	8	Glavitsch	Glavitsch	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	123	10	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	123	11	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	123	12	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	123	13	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	123	14	Base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	123	15	System	system	NN
work_5ra3eporv5glfexqgreko6dnzy	123	16	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	123	17	Security	Security	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	18	Enhansment	Enhansment	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	19	Combining	Combining	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	20	Al	Al	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	21	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	123	22	Techniques	Techniques	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	23	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	123	24	Analytic	Analytic	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	25	Algorithms	Algorithms	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	26	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	123	27	10th	10th	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	28	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	29	Systems	Systems	NNPS
work_5ra3eporv5glfexqgreko6dnzy	123	30	Computation	Computation	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	31	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	32	PSCC	PSCC	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	33	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	123	34	Graz	Graz	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	35	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	123	36	Austria	Austria	NNP
work_5ra3eporv5glfexqgreko6dnzy	123	37	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	123	38	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	123	39	1990	1990	CD
work_5ra3eporv5glfexqgreko6dnzy	123	40	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	123	41	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	124	1	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	124	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	124	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	124	4	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	124	5	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	6	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	124	8	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	124	9	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	124	10	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	124	11	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	12	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	124	13	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	14	1E-1	1e-1	CD
work_5ra3eporv5glfexqgreko6dnzy	124	15	1051	1051	CD
work_5ra3eporv5glfexqgreko6dnzy	124	16	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	124	17	10]D.Reichelt	10]d.reichelt	CD
work_5ra3eporv5glfexqgreko6dnzy	124	18	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	124	19	H.	H.	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	20	Glavitsch	Glavitsch	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	21	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	124	22	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	124	23	Features	feature	NNS
work_5ra3eporv5glfexqgreko6dnzy	124	24	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	124	25	Hybrid	Hybrid	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	26	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	124	27	System	System	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	28	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	124	29	Security	Security	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	30	Enhancement	Enhancement	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	31	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	124	32	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	124	33	IEEE	IEEE	NNP
work_5ra3eporv5glfexqgreko6dnzy	124	34	Trans	Trans	NNPS
work_5ra3eporv5glfexqgreko6dnzy	124	35	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	125	1	On	on	IN
work_5ra3eporv5glfexqgreko6dnzy	125	2	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	125	3	Systems	Systems	NNPS
work_5ra3eporv5glfexqgreko6dnzy	125	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	125	5	vol.7	vol.7	NNP
work_5ra3eporv5glfexqgreko6dnzy	125	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	125	7	No.2	no.2	NN
work_5ra3eporv5glfexqgreko6dnzy	125	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	125	9	pp.907	pp.907	NNP
work_5ra3eporv5glfexqgreko6dnzy	125	10	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	125	11	913	913	NNP
work_5ra3eporv5glfexqgreko6dnzy	125	12	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	125	13	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	125	14	1992	1992	CD
work_5ra3eporv5glfexqgreko6dnzy	125	15	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	125	16	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	126	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	126	2	11]Tang	11]tang	CD
work_5ra3eporv5glfexqgreko6dnzy	126	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	4	Guoqing	Guoqing	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	6	Xu	Xu	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	8	Hongyuan	Hongyuan	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	9	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	10	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	126	11	Chen	Chen	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	12	Heng	Heng	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	14	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	126	15	An	an	DT
work_5ra3eporv5glfexqgreko6dnzy	126	16	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	126	17	System	system	NN
work_5ra3eporv5glfexqgreko6dnzy	126	18	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	126	19	VoltageNAR	voltagenar	ADD
work_5ra3eporv5glfexqgreko6dnzy	126	20	Control	control	NN
work_5ra3eporv5glfexqgreko6dnzy	126	21	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	126	22	Interconnected	Interconnected	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	23	Power	Power	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	24	Systems	Systems	NNPS
work_5ra3eporv5glfexqgreko6dnzy	126	25	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	126	26	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	27	ESAP'93	ESAP'93	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	28	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	29	pp.292-	pp.292-	NNP
work_5ra3eporv5glfexqgreko6dnzy	126	30	295	295	CD
work_5ra3eporv5glfexqgreko6dnzy	126	31	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	126	32	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	126	33	1993	1993	CD
work_5ra3eporv5glfexqgreko6dnzy	126	34	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	126	35	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	127	1	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	127	2	12]Josiane	12]josiane	CD
work_5ra3eporv5glfexqgreko6dnzy	127	3	Razanamampandry	Razanamampandry	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	127	5	Pierre	Pierre	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	6	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	127	7	Andre'Chamorel	Andre'Chamorel	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	127	9	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	127	10	Alain	Alain	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	11	J.	J.	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	12	Germond	Germond	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	127	14	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	127	15	Expert	expert	JJ
work_5ra3eporv5glfexqgreko6dnzy	127	16	System	system	NN
work_5ra3eporv5glfexqgreko6dnzy	127	17	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	127	18	Voltage	Voltage	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	19	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	127	20	VAR	VAR	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	21	Control	Control	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	22	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	127	23	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	127	24	ESAP'93	ESAP'93	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	25	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	127	26	pp.296	pp.296	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	27	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	127	28	302,(1993	302,(1993	NNP
work_5ra3eporv5glfexqgreko6dnzy	127	29	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	127	30	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	128	1	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	128	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	128	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	128	4	le	le	NNP
work_5ra3eporv5glfexqgreko6dnzy	128	5	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	128	6	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	128	7	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	128	8	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	128	9	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	128	10	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	128	11	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	128	12	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	128	13	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	128	14	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	128	15	1052	1052	CD
work_5ra3eporv5glfexqgreko6dnzy	128	16	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	128	17	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	128	18	high	high	JJ
work_5ra3eporv5glfexqgreko6dnzy	128	19	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	128	20	pressure	pressure	NN
work_5ra3eporv5glfexqgreko6dnzy	128	21	power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	128	22	fraction	fraction	NN
work_5ra3eporv5glfexqgreko6dnzy	128	23	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	128	24	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	128	25	reheat	reheat	NN
work_5ra3eporv5glfexqgreko6dnzy	128	26	turbine	turbine	NN
work_5ra3eporv5glfexqgreko6dnzy	128	27	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	129	1	Km	Km	NNP
work_5ra3eporv5glfexqgreko6dnzy	129	2	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	129	3	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	129	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	129	5	gain	gain	NN
work_5ra3eporv5glfexqgreko6dnzy	129	6	ID	ID	NNP
work_5ra3eporv5glfexqgreko6dnzy	129	7	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	129	8	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	129	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	129	10	damping	damp	VBG
work_5ra3eporv5glfexqgreko6dnzy	129	11	factor	factor	NN
work_5ra3eporv5glfexqgreko6dnzy	129	12	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	129	13	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	129	14	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	129	15	inertia	inertia	NN
work_5ra3eporv5glfexqgreko6dnzy	129	16	constant	constant	JJ
work_5ra3eporv5glfexqgreko6dnzy	129	17	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	129	18	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	129	19	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	129	20	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	130	1	constant	constant	JJ
work_5ra3eporv5glfexqgreko6dnzy	130	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	131	1	TR	TR	NNP
work_5ra3eporv5glfexqgreko6dnzy	131	2	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	131	3	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	131	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	131	5	reheat	reheat	JJ
work_5ra3eporv5glfexqgreko6dnzy	131	6	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	131	7	Fig.1	fig.1	IN
work_5ra3eporv5glfexqgreko6dnzy	131	8	A	a	DT
work_5ra3eporv5glfexqgreko6dnzy	131	9	linear	linear	JJ
work_5ra3eporv5glfexqgreko6dnzy	131	10	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	131	11	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	131	12	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	131	13	model	model	NN
work_5ra3eporv5glfexqgreko6dnzy	131	14	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	131	15	an	an	DT
work_5ra3eporv5glfexqgreko6dnzy	131	16	isolated	isolated	JJ
work_5ra3eporv5glfexqgreko6dnzy	131	17	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	131	18	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	131	19	P	p	NN
work_5ra3eporv5glfexqgreko6dnzy	131	20	th	th	XX
work_5ra3eporv5glfexqgreko6dnzy	131	21	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	131	22	t	t	NN
work_5ra3eporv5glfexqgreko6dnzy	131	23	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	132	1	as	as	IN
work_5ra3eporv5glfexqgreko6dnzy	132	2	input	input	NN
work_5ra3eporv5glfexqgreko6dnzy	132	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	133	1	Power	power	NN
work_5ra3eporv5glfexqgreko6dnzy	133	2	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	133	3	Network	Network	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	4	database	database	NN
work_5ra3eporv5glfexqgreko6dnzy	133	5	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	133	6	Expert	Expert	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	7	Knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	133	8	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	133	9	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	133	10	Search	search	NN
work_5ra3eporv5glfexqgreko6dnzy	133	11	prorsiprodfct	prorsiprodfct	NN
work_5ra3eporv5glfexqgreko6dnzy	133	12	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	133	13	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	133	14	Inference	inference	NN
work_5ra3eporv5glfexqgreko6dnzy	133	15	engine	engine	NN
work_5ra3eporv5glfexqgreko6dnzy	133	16	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	133	17	analytical	analytical	JJ
work_5ra3eporv5glfexqgreko6dnzy	133	18	Programs	program	NNS
work_5ra3eporv5glfexqgreko6dnzy	133	19	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	133	20	t	t	NN
work_5ra3eporv5glfexqgreko6dnzy	133	21	language	language	NN
work_5ra3eporv5glfexqgreko6dnzy	133	22	interface	interface	NN
work_5ra3eporv5glfexqgreko6dnzy	133	23	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	133	24	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	133	25	t	t	NN
work_5ra3eporv5glfexqgreko6dnzy	133	26	user	user	NN
work_5ra3eporv5glfexqgreko6dnzy	133	27	result	result	NN
work_5ra3eporv5glfexqgreko6dnzy	133	28	display	display	NN
work_5ra3eporv5glfexqgreko6dnzy	133	29	Fig.2	fig.2	IN
work_5ra3eporv5glfexqgreko6dnzy	133	30	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	133	31	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	133	32	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	133	33	configuration	configuration	NN
work_5ra3eporv5glfexqgreko6dnzy	133	34	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	133	35	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	133	36	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	133	37	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	133	38	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	133	39	A-	a-	NN
work_5ra3eporv5glfexqgreko6dnzy	133	40	I.%	I.%	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	41	a	a	DT
work_5ra3eporv5glfexqgreko6dnzy	133	42	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	133	43	4.0	4.0	CD
work_5ra3eporv5glfexqgreko6dnzy	133	44	0.484	0.484	CD
work_5ra3eporv5glfexqgreko6dnzy	133	45	8	8	CD
work_5ra3eporv5glfexqgreko6dnzy	133	46	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	133	47	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	133	48	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	133	49	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	133	50	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	133	51	ASA	ASA	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	52	T	T	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	53	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	54	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	133	55	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	133	56	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	133	57	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	133	58	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	59	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	133	60	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	61	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	62	1053	1053	CD
work_5ra3eporv5glfexqgreko6dnzy	133	63	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	133	64	a	a	LS
work_5ra3eporv5glfexqgreko6dnzy	133	65	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	133	66	Pd,„„r,3.6	Pd,„„r,3.6	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	67	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	133	68	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	134	1	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	134	2	b	b	NNP
work_5ra3eporv5glfexqgreko6dnzy	134	3	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	134	4	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	134	5	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	135	1	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	135	2	c	c	NN
work_5ra3eporv5glfexqgreko6dnzy	135	3	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	135	4	Pd„„w=1.0	Pd„„w=1.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	135	5	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	135	6	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	136	1	Fig	fig	NN
work_5ra3eporv5glfexqgreko6dnzy	136	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	137	1	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	137	2	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	137	3	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	137	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	137	5	before	before	RB
work_5ra3eporv5glfexqgreko6dnzy	137	6	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	137	7	after	after	IN
work_5ra3eporv5glfexqgreko6dnzy	137	8	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	137	9	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	137	10	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	137	11	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	137	12	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	137	13	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	137	14	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	137	15	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	137	16	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	137	17	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	137	18	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	137	19	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	137	20	p.u	p.u	NN
work_5ra3eporv5glfexqgreko6dnzy	137	21	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	138	1	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	138	2	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	138	3	module	module	NN
work_5ra3eporv5glfexqgreko6dnzy	138	4	Load	Load	NNP
work_5ra3eporv5glfexqgreko6dnzy	138	5	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	138	6	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	138	7	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	138	8	I	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	138	9	response	response	VBP
work_5ra3eporv5glfexqgreko6dnzy	138	10	programming	programming	NN
work_5ra3eporv5glfexqgreko6dnzy	138	11	I	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	138	12	decisions	decision	VBZ
work_5ra3eporv5glfexqgreko6dnzy	138	13	Interface	Interface	NNP
work_5ra3eporv5glfexqgreko6dnzy	138	14	module	module	NN
work_5ra3eporv5glfexqgreko6dnzy	138	15	Fig	Fig	NNP
work_5ra3eporv5glfexqgreko6dnzy	138	16	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	139	1	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	139	2	Simulation	Simulation	NNP
work_5ra3eporv5glfexqgreko6dnzy	139	3	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	139	4	scheme	scheme	NN
work_5ra3eporv5glfexqgreko6dnzy	139	5	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	140	1	Data	datum	NNS
work_5ra3eporv5glfexqgreko6dnzy	140	2	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	140	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	140	4	Pte=	pte=	NN
work_5ra3eporv5glfexqgreko6dnzy	140	5	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	140	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	140	7	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	140	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	140	9	1.0.p.u	1.0.p.u	CD
work_5ra3eporv5glfexqgreko6dnzy	140	10	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	141	1	For	for	IN
work_5ra3eporv5glfexqgreko6dnzy	141	2	plansl&2	plansl&2	NNS
work_5ra3eporv5glfexqgreko6dnzy	141	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	141	4	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	141	5	fu	fu	NN
work_5ra3eporv5glfexqgreko6dnzy	141	6	&	&	CC
work_5ra3eporv5glfexqgreko6dnzy	141	7	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	141	8	f	f	NN
work_5ra3eporv5glfexqgreko6dnzy	141	9	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	141	10	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	141	11	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	141	12	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	141	13	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	142	1	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	142	2	Total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	142	3	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	142	4	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	142	5	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	142	6	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	142	7	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	143	1	-	-	:
work_5ra3eporv5glfexqgreko6dnzy	143	2	Load	load	VB
work_5ra3eporv5glfexqgreko6dnzy	143	3	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	143	4	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	143	5	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	143	6	r	r	NN
work_5ra3eporv5glfexqgreko6dnzy	143	7	each	each	DT
work_5ra3eporv5glfexqgreko6dnzy	143	8	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	143	9	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	144	1	Check	check	VB
work_5ra3eporv5glfexqgreko6dnzy	144	2	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	144	3	If	if	IN
work_5ra3eporv5glfexqgreko6dnzy	144	4	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	144	5	subsystem	subsystem	NN
work_5ra3eporv5glfexqgreko6dnzy	144	6	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	144	7	f<5714z	f<5714z	NNP
work_5ra3eporv5glfexqgreko6dnzy	144	8	?	?	.
work_5ra3eporv5glfexqgreko6dnzy	145	1	Yes	yes	UH
work_5ra3eporv5glfexqgreko6dnzy	145	2	The	the	DT
work_5ra3eporv5glfexqgreko6dnzy	145	3	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	145	4	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	145	5	subjected	subject	VBN
work_5ra3eporv5glfexqgreko6dnzy	145	6	to	to	IN
work_5ra3eporv5glfexqgreko6dnzy	145	7	under	under	IN
work_5ra3eporv5glfexqgreko6dnzy	145	8	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	145	9	problem	problem	NN
work_5ra3eporv5glfexqgreko6dnzy	145	10	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	146	1	Get	get	VB
work_5ra3eporv5glfexqgreko6dnzy	146	2	minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	146	3	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	146	4	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	146	5	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	146	6	all	all	DT
work_5ra3eporv5glfexqgreko6dnzy	146	7	details	detail	NNS
work_5ra3eporv5glfexqgreko6dnzy	146	8	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	146	9	plank	plank	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	10	&	&	CC
work_5ra3eporv5glfexqgreko6dnzy	146	11	plan2	plan2	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	12	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	146	13	from	from	IN
work_5ra3eporv5glfexqgreko6dnzy	146	14	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	146	15	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	146	16	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	146	17	for	for	IN
work_5ra3eporv5glfexqgreko6dnzy	146	18	Plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	146	19	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	146	20	get	get	VB
work_5ra3eporv5glfexqgreko6dnzy	146	21	-Total	-total	JJ
work_5ra3eporv5glfexqgreko6dnzy	146	22	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	146	23	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	146	24	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	146	25	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	146	26	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	146	27	6-steps	6-steps	CD
work_5ra3eporv5glfexqgreko6dnzy	146	28	-	-	HYPH
work_5ra3eporv5glfexqgreko6dnzy	146	29	Load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	146	30	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	146	31	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	146	32	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	146	33	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	146	34	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	146	35	with:-	with:-	VB
work_5ra3eporv5glfexqgreko6dnzy	146	36	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	146	37	Initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	146	38	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	146	39	59.5Hz	59.5Hz	VBN
work_5ra3eporv5glfexqgreko6dnzy	146	40	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	146	41	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	42	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	146	43	0.2Hz	0.2hz	CD
work_5ra3eporv5glfexqgreko6dnzy	146	44	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	146	45	Final	final	JJ
work_5ra3eporv5glfexqgreko6dnzy	146	46	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	146	47	58.5Hz	58.5hz	IN
work_5ra3eporv5glfexqgreko6dnzy	146	48	Proceedings	Proceedings	NNPS
work_5ra3eporv5glfexqgreko6dnzy	146	49	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	146	50	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	146	51	10th	10th	JJ
work_5ra3eporv5glfexqgreko6dnzy	146	52	ASA	ASA	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	53	T	T	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	54	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	55	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	146	56	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	146	57	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	146	58	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	146	59	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	60	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	146	61	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	62	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	146	63	1054	1054	CD
work_5ra3eporv5glfexqgreko6dnzy	146	64	Check	check	NN
work_5ra3eporv5glfexqgreko6dnzy	146	65	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	146	66	If	if	IN
work_5ra3eporv5glfexqgreko6dnzy	146	67	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	146	68	disturbance	disturbance	NN
work_5ra3eporv5glfexqgreko6dnzy	146	69	match	match	NN
work_5ra3eporv5glfexqgreko6dnzy	146	70	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	146	71	those	those	DT
work_5ra3eporv5glfexqgreko6dnzy	146	72	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	146	73	data	datum	NNS
work_5ra3eporv5glfexqgreko6dnzy	146	74	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	146	75	?	?	.
work_5ra3eporv5glfexqgreko6dnzy	147	1	Pa	Pa	NNP
work_5ra3eporv5glfexqgreko6dnzy	147	2	„	„	NNP
work_5ra3eporv5glfexqgreko6dnzy	147	3	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	147	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	147	5	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	147	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	147	7	„	„	UH
work_5ra3eporv5glfexqgreko6dnzy	147	8	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	148	1	Fla	Fla	NNP
work_5ra3eporv5glfexqgreko6dnzy	148	2	=	=	SYM
work_5ra3eporv5glfexqgreko6dnzy	148	3	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	148	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	148	5	0.8	0.8	CD
work_5ra3eporv5glfexqgreko6dnzy	148	6	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	148	7	1.0.p.u	1.0.p.u	CD
work_5ra3eporv5glfexqgreko6dnzy	148	8	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	148	9	?	?	.
work_5ra3eporv5glfexqgreko6dnzy	149	1	Expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	149	2	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	149	3	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	149	4	knowledge	knowledge	NN
work_5ra3eporv5glfexqgreko6dnzy	149	5	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	149	6	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	149	7	Approximation	approximation	NN
work_5ra3eporv5glfexqgreko6dnzy	149	8	is	be	VBZ
work_5ra3eporv5glfexqgreko6dnzy	149	9	made	make	VBN
work_5ra3eporv5glfexqgreko6dnzy	149	10	No	no	NN
work_5ra3eporv5glfexqgreko6dnzy	149	11	To	to	IN
work_5ra3eporv5glfexqgreko6dnzy	149	12	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	149	13	nearst	nearst	JJ
work_5ra3eporv5glfexqgreko6dnzy	149	14	case	case	NN
work_5ra3eporv5glfexqgreko6dnzy	149	15	with	with	IN
work_5ra3eporv5glfexqgreko6dnzy	149	16	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	149	17	Those	those	DT
work_5ra3eporv5glfexqgreko6dnzy	149	18	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	149	19	data	datum	NNS
work_5ra3eporv5glfexqgreko6dnzy	149	20	base	base	NN
work_5ra3eporv5glfexqgreko6dnzy	149	21	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	150	1	If	if	IN
work_5ra3eporv5glfexqgreko6dnzy	150	2	using	use	VBG
work_5ra3eporv5glfexqgreko6dnzy	150	3	Prolog	prolog	JJ
work_5ra3eporv5glfexqgreko6dnzy	150	4	program	program	NN
work_5ra3eporv5glfexqgreko6dnzy	150	5	Use	Use	NNP
work_5ra3eporv5glfexqgreko6dnzy	150	6	"	"	``
work_5ra3eporv5glfexqgreko6dnzy	150	7	round	round	JJ
work_5ra3eporv5glfexqgreko6dnzy	150	8	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	150	9	statement	statement	NN
work_5ra3eporv5glfexqgreko6dnzy	150	10	For	for	IN
work_5ra3eporv5glfexqgreko6dnzy	150	11	approximation	approximation	NN
work_5ra3eporv5glfexqgreko6dnzy	150	12	Plank	Plank	NNP
work_5ra3eporv5glfexqgreko6dnzy	150	13	:	:	:
work_5ra3eporv5glfexqgreko6dnzy	150	14	get	get	VB
work_5ra3eporv5glfexqgreko6dnzy	150	15	-Total	-total	JJ
work_5ra3eporv5glfexqgreko6dnzy	150	16	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	150	17	to	to	TO
work_5ra3eporv5glfexqgreko6dnzy	150	18	be	be	VB
work_5ra3eporv5glfexqgreko6dnzy	150	19	shed	shed	VBN
work_5ra3eporv5glfexqgreko6dnzy	150	20	in	in	IN
work_5ra3eporv5glfexqgreko6dnzy	150	21	4-steps	4-steps	CD
work_5ra3eporv5glfexqgreko6dnzy	150	22	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	151	1	-Load	-Load	:
work_5ra3eporv5glfexqgreko6dnzy	151	2	shedding	shed	VBG
work_5ra3eporv5glfexqgreko6dnzy	151	3	at	at	IN
work_5ra3eporv5glfexqgreko6dnzy	151	4	any	any	DT
work_5ra3eporv5glfexqgreko6dnzy	151	5	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	151	6	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	151	7	with:-	with:-	VB
work_5ra3eporv5glfexqgreko6dnzy	151	8	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	151	9	Initial	initial	JJ
work_5ra3eporv5glfexqgreko6dnzy	151	10	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	151	11	59.5Hz	59.5Hz	VBN
work_5ra3eporv5glfexqgreko6dnzy	151	12	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	151	13	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	151	14	interval	interval	NN
work_5ra3eporv5glfexqgreko6dnzy	151	15	0.5Hz	0.5hz	CD
work_5ra3eporv5glfexqgreko6dnzy	151	16	*	*	NFP
work_5ra3eporv5glfexqgreko6dnzy	151	17	Final	final	JJ
work_5ra3eporv5glfexqgreko6dnzy	151	18	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	151	19	58Hz	58hz	CD
work_5ra3eporv5glfexqgreko6dnzy	151	20	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	152	1	L	l	NN
work_5ra3eporv5glfexqgreko6dnzy	152	2	$	$	$
work_5ra3eporv5glfexqgreko6dnzy	152	3	[	[	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	152	4	Results	result	NNS
work_5ra3eporv5glfexqgreko6dnzy	152	5	Fig.5	fig.5	NN
work_5ra3eporv5glfexqgreko6dnzy	152	6	Flow	flow	NN
work_5ra3eporv5glfexqgreko6dnzy	152	7	chart	chart	NN
work_5ra3eporv5glfexqgreko6dnzy	152	8	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	152	9	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	152	10	suggested	suggest	VBN
work_5ra3eporv5glfexqgreko6dnzy	152	11	expert	expert	NN
work_5ra3eporv5glfexqgreko6dnzy	152	12	system	system	NN
work_5ra3eporv5glfexqgreko6dnzy	152	13	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	153	1	fr	fr	IN
work_5ra3eporv5glfexqgreko6dnzy	153	2	uen	uen	NNP
work_5ra3eporv5glfexqgreko6dnzy	153	3	f	f	NNP
work_5ra3eporv5glfexqgreko6dnzy	153	4	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	153	5	Pchan	Pchan	NNP
work_5ra3eporv5glfexqgreko6dnzy	153	6	e--0.8	e--0.8	NNP
work_5ra3eporv5glfexqgreko6dnzy	153	7	.u	.u	.
work_5ra3eporv5glfexqgreko6dnzy	153	8	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	154	1	Pchan	Pchan	NNP
work_5ra3eporv5glfexqgreko6dnzy	154	2	0	0	CD
work_5ra3eporv5glfexqgreko6dnzy	154	3	60.00	60.00	CD
work_5ra3eporv5glfexqgreko6dnzy	154	4	57.16	57.16	CD
work_5ra3eporv5glfexqgreko6dnzy	154	5	55.31	55.31	CD
work_5ra3eporv5glfexqgreko6dnzy	154	6	54.20	54.20	CD
work_5ra3eporv5glfexqgreko6dnzy	154	7	53.62	53.62	CD
work_5ra3eporv5glfexqgreko6dnzy	154	8	53.43	53.43	CD
work_5ra3eporv5glfexqgreko6dnzy	154	9	53.49	53.49	CD
work_5ra3eporv5glfexqgreko6dnzy	154	10	53.71	53.71	CD
work_5ra3eporv5glfexqgreko6dnzy	154	11	54.02	54.02	CD
work_5ra3eporv5glfexqgreko6dnzy	154	12	54.38	54.38	CD
work_5ra3eporv5glfexqgreko6dnzy	154	13	54.74	54.74	CD
work_5ra3eporv5glfexqgreko6dnzy	154	14	55.09	55.09	CD
work_5ra3eporv5glfexqgreko6dnzy	154	15	55.41	55.41	CD
work_5ra3eporv5glfexqgreko6dnzy	154	16	55.69	55.69	CD
work_5ra3eporv5glfexqgreko6dnzy	154	17	55.99	55.99	CD
work_5ra3eporv5glfexqgreko6dnzy	154	18	56.15	56.15	CD
work_5ra3eporv5glfexqgreko6dnzy	154	19	56.32	56.32	CD
work_5ra3eporv5glfexqgreko6dnzy	154	20	u.	u.	NN
work_5ra3eporv5glfexqgreko6dnzy	155	1	•	•	VB
work_5ra3eporv5glfexqgreko6dnzy	155	2	56.45	56.45	CD
work_5ra3eporv5glfexqgreko6dnzy	155	3	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	155	4	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	155	5	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	155	6	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	155	7	°	°	NNS
work_5ra3eporv5glfexqgreko6dnzy	155	8	'	'	''
work_5ra3eporv5glfexqgreko6dnzy	155	9	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	10	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	11	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	155	12	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	155	13	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	155	14	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	155	15	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	16	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	155	17	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	18	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	19	1055	1055	CD
work_5ra3eporv5glfexqgreko6dnzy	155	20	Tablet	Tablet	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	21	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	22	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	155	23	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	155	24	sudden	sudden	JJ
work_5ra3eporv5glfexqgreko6dnzy	155	25	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	155	26	change	change	NN
work_5ra3eporv5glfexqgreko6dnzy	155	27	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	155	28	Pc	pc	JJ
work_5ra3eporv5glfexqgreko6dnzy	155	29	h	h	NN
work_5ra3eporv5glfexqgreko6dnzy	155	30	"	"	''
work_5ra3eporv5glfexqgreko6dnzy	155	31	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	155	32	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	155	33	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	155	34	0.6	0.6	CD
work_5ra3eporv5glfexqgreko6dnzy	155	35	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	155	36	0.8,1.0	0.8,1.0	DT
work_5ra3eporv5glfexqgreko6dnzy	155	37	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	155	38	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	156	1	Time	Time	NNP
work_5ra3eporv5glfexqgreko6dnzy	156	2	sec	sec	NNP
work_5ra3eporv5glfexqgreko6dnzy	156	3	0.0	0.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	4	0.5	0.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	5	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	6	1.5	1.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	7	2.0	2.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	8	2.5	2.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	9	3.0	3.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	10	3.5	3.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	11	4.0	4.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	12	4.5	4.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	13	5.0	5.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	14	5.5	5.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	15	6.0	6.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	16	6.5	6.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	17	7.0	7.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	18	7.5	7.5	CD
work_5ra3eporv5glfexqgreko6dnzy	156	19	8.0	8.0	CD
work_5ra3eporv5glfexqgreko6dnzy	156	20	Pchan	Pchan	NNP
work_5ra3eporv5glfexqgreko6dnzy	156	21	e=0.6	e=0.6	VBZ
work_5ra3eporv5glfexqgreko6dnzy	156	22	60.00	60.00	CD
work_5ra3eporv5glfexqgreko6dnzy	156	23	57.87	57.87	CD
work_5ra3eporv5glfexqgreko6dnzy	156	24	56.48	56.48	CD
work_5ra3eporv5glfexqgreko6dnzy	156	25	55.65	55.65	CD
work_5ra3eporv5glfexqgreko6dnzy	156	26	55.22	55.22	CD
work_5ra3eporv5glfexqgreko6dnzy	156	27	55.07	55.07	CD
work_5ra3eporv5glfexqgreko6dnzy	156	28	55.12	55.12	CD
work_5ra3eporv5glfexqgreko6dnzy	156	29	55.28	55.28	CD
work_5ra3eporv5glfexqgreko6dnzy	156	30	55.52	55.52	CD
work_5ra3eporv5glfexqgreko6dnzy	156	31	55.78	55.78	CD
work_5ra3eporv5glfexqgreko6dnzy	156	32	56.06	56.06	CD
work_5ra3eporv5glfexqgreko6dnzy	156	33	56.26	56.26	CD
work_5ra3eporv5glfexqgreko6dnzy	156	34	56.56	56.56	CD
work_5ra3eporv5glfexqgreko6dnzy	156	35	56.77	56.77	CD
work_5ra3eporv5glfexqgreko6dnzy	156	36	56.96	56.96	CD
work_5ra3eporv5glfexqgreko6dnzy	156	37	57.11	57.11	CD
work_5ra3eporv5glfexqgreko6dnzy	156	38	57.24	57.24	CD
work_5ra3eporv5glfexqgreko6dnzy	156	39	Table2	Table2	NNP
work_5ra3eporv5glfexqgreko6dnzy	156	40	Minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	156	41	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	156	42	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	156	43	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	156	44	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	156	45	settings	setting	NNS
work_5ra3eporv5glfexqgreko6dnzy	156	46	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	156	47	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	156	48	Step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	156	49	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	156	50	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	156	51	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	156	52	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	156	53	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	156	54	.	.	NNP
work_5ra3eporv5glfexqgreko6dnzy	156	55	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	157	1	frequency	frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	157	2	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	157	3	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	157	4	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	157	5	Pchange=0.6pu	Pchange=0.6pu	NNP
work_5ra3eporv5glfexqgreko6dnzy	157	6	Pchange=0.8pu	Pchange=0.8pu	NNP
work_5ra3eporv5glfexqgreko6dnzy	157	7	Pchange=1.0pu	Pchange=1.0pu	NNP
work_5ra3eporv5glfexqgreko6dnzy	157	8	59.5	59.5	CD
work_5ra3eporv5glfexqgreko6dnzy	157	9	0.06	0.06	CD
work_5ra3eporv5glfexqgreko6dnzy	157	10	0.12	0.12	CD
work_5ra3eporv5glfexqgreko6dnzy	157	11	0.16	0.16	CD
work_5ra3eporv5glfexqgreko6dnzy	157	12	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	157	13	59.0	59.0	CD
work_5ra3eporv5glfexqgreko6dnzy	157	14	0.06	0.06	CD
work_5ra3eporv5glfexqgreko6dnzy	157	15	0.12	0.12	CD
work_5ra3eporv5glfexqgreko6dnzy	157	16	0.16	0.16	CD
work_5ra3eporv5glfexqgreko6dnzy	157	17	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	157	18	58.5	58.5	CD
work_5ra3eporv5glfexqgreko6dnzy	157	19	0.06	0.06	CD
work_5ra3eporv5glfexqgreko6dnzy	157	20	0.12	0.12	CD
work_5ra3eporv5glfexqgreko6dnzy	157	21	0.16	0.16	CD
work_5ra3eporv5glfexqgreko6dnzy	157	22	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	157	23	58.0	58.0	CD
work_5ra3eporv5glfexqgreko6dnzy	157	24	0.06	0.06	CD
work_5ra3eporv5glfexqgreko6dnzy	157	25	0.12	0.12	CD
work_5ra3eporv5glfexqgreko6dnzy	157	26	0.16	0.16	CD
work_5ra3eporv5glfexqgreko6dnzy	157	27	total	total	JJ
work_5ra3eporv5glfexqgreko6dnzy	157	28	min	min	NN
work_5ra3eporv5glfexqgreko6dnzy	157	29	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	158	1	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	158	2	shedding	shedding	NNP
work_5ra3eporv5glfexqgreko6dnzy	158	3	0.24p.u	0.24p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	158	4	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	158	5	I	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	158	6	0.48p.u	0.48p.u	CD
work_5ra3eporv5glfexqgreko6dnzy	158	7	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	159	1	I	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	159	2	0.64p.u	0.64p.u	VBP
work_5ra3eporv5glfexqgreko6dnzy	159	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	160	1	Proceedings	proceeding	NNS
work_5ra3eporv5glfexqgreko6dnzy	160	2	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	160	3	the	the	DT
work_5ra3eporv5glfexqgreko6dnzy	160	4	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	160	5	m	m	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	6	ASAT	ASAT	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	7	Conference	Conference	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	8	,	,	,
work_5ra3eporv5glfexqgreko6dnzy	160	9	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	160	10	-	-	SYM
work_5ra3eporv5glfexqgreko6dnzy	160	11	15	15	CD
work_5ra3eporv5glfexqgreko6dnzy	160	12	May	May	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	13	2003	2003	CD
work_5ra3eporv5glfexqgreko6dnzy	160	14	Paper	Paper	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	15	1E-1	1E-1	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	16	1056	1056	CD
work_5ra3eporv5glfexqgreko6dnzy	160	17	Table3	Table3	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	18	Frequency	Frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	19	response	response	NN
work_5ra3eporv5glfexqgreko6dnzy	160	20	after	after	IN
work_5ra3eporv5glfexqgreko6dnzy	160	21	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	160	22	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	160	23	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	160	24	plant	plant	NN
work_5ra3eporv5glfexqgreko6dnzy	160	25	time	time	NN
work_5ra3eporv5glfexqgreko6dnzy	160	26	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	160	27	sec	sec	NNP
work_5ra3eporv5glfexqgreko6dnzy	160	28	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	160	29	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	161	1	frequency	frequency	NNP
work_5ra3eporv5glfexqgreko6dnzy	161	2	f	f	NNP
work_5ra3eporv5glfexqgreko6dnzy	161	3	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	161	4	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	161	5	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	161	6	Pchange=0.6	Pchange=0.6	NNP
work_5ra3eporv5glfexqgreko6dnzy	161	7	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	161	8	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	162	1	Pchange=0.8	Pchange=0.8	NNP
work_5ra3eporv5glfexqgreko6dnzy	162	2	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	162	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	163	1	Pchange=1.0	Pchange=1.0	NNP
work_5ra3eporv5glfexqgreko6dnzy	163	2	p.u	p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	163	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	164	1	0.0	0.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	2	60.00	60.00	CD
work_5ra3eporv5glfexqgreko6dnzy	164	3	60.00	60.00	CD
work_5ra3eporv5glfexqgreko6dnzy	164	4	60.00	60.00	CD
work_5ra3eporv5glfexqgreko6dnzy	164	5	0.5	0.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	6	58.72	58.72	CD
work_5ra3eporv5glfexqgreko6dnzy	164	7	58.86	58.86	CD
work_5ra3eporv5glfexqgreko6dnzy	164	8	58.92	58.92	CD
work_5ra3eporv5glfexqgreko6dnzy	164	9	1.0	1.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	10	1.5	1.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	11	57.89	57.89	CD
work_5ra3eporv5glfexqgreko6dnzy	164	12	57.39	57.39	CD
work_5ra3eporv5glfexqgreko6dnzy	164	13	58.12	58.12	CD
work_5ra3eporv5glfexqgreko6dnzy	164	14	58.29	58.29	CD
work_5ra3eporv5glfexqgreko6dnzy	164	15	57.68	57.68	CD
work_5ra3eporv5glfexqgreko6dnzy	164	16	57.79	57.79	CD
work_5ra3eporv5glfexqgreko6dnzy	164	17	2.0	2.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	18	57.13	57.13	CD
work_5ra3eporv5glfexqgreko6dnzy	164	19	57.45	57.45	CD
work_5ra3eporv5glfexqgreko6dnzy	164	20	57,53	57,53	CD
work_5ra3eporv5glfexqgreko6dnzy	164	21	2.5	2.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	22	57.04	57.04	CD
work_5ra3eporv5glfexqgreko6dnzy	164	23	57.37	57.37	CD
work_5ra3eporv5glfexqgreko6dnzy	164	24	57.44	57.44	CD
work_5ra3eporv5glfexqgreko6dnzy	164	25	3.0	3.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	26	57.07	57.07	CD
work_5ra3eporv5glfexqgreko6dnzy	164	27	57.39	57.39	CD
work_5ra3eporv5glfexqgreko6dnzy	164	28	57.49	57.49	CD
work_5ra3eporv5glfexqgreko6dnzy	164	29	3.5	3.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	30	57.17	57.17	CD
work_5ra3eporv5glfexqgreko6dnzy	164	31	57.48	57.48	CD
work_5ra3eporv5glfexqgreko6dnzy	164	32	57.57	57.57	CD
work_5ra3eporv5glfexqgreko6dnzy	164	33	4.0	4.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	34	57.31	57.31	CD
work_5ra3eporv5glfexqgreko6dnzy	164	35	57.61	57.61	CD
work_5ra3eporv5glfexqgreko6dnzy	164	36	57.81	57.81	CD
work_5ra3eporv5glfexqgreko6dnzy	164	37	4.5	4.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	38	57.47	57.47	CD
work_5ra3eporv5glfexqgreko6dnzy	164	39	57.75	57.75	CD
work_5ra3eporv5glfexqgreko6dnzy	164	40	57.97	57.97	CD
work_5ra3eporv5glfexqgreko6dnzy	164	41	5.0	5.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	42	57.63	57.63	CD
work_5ra3eporv5glfexqgreko6dnzy	164	43	57.89	57.89	CD
work_5ra3eporv5glfexqgreko6dnzy	164	44	58.11	58.11	CD
work_5ra3eporv5glfexqgreko6dnzy	164	45	5.5	5.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	46	57.79	57.79	CD
work_5ra3eporv5glfexqgreko6dnzy	164	47	58.04	58.04	CD
work_5ra3eporv5glfexqgreko6dnzy	164	48	58.26	58.26	CD
work_5ra3eporv5glfexqgreko6dnzy	164	49	6.0	6.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	50	57.93	57.93	CD
work_5ra3eporv5glfexqgreko6dnzy	164	51	58.16	58.16	CD
work_5ra3eporv5glfexqgreko6dnzy	164	52	58.39	58.39	CD
work_5ra3eporv5glfexqgreko6dnzy	164	53	6.5	6.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	54	58.06	58.06	CD
work_5ra3eporv5glfexqgreko6dnzy	164	55	58.28	58.28	CD
work_5ra3eporv5glfexqgreko6dnzy	164	56	58.53	58.53	CD
work_5ra3eporv5glfexqgreko6dnzy	164	57	7.0	7.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	58	58.17	58.17	CD
work_5ra3eporv5glfexqgreko6dnzy	164	59	58.38	58.38	CD
work_5ra3eporv5glfexqgreko6dnzy	164	60	58.67	58.67	CD
work_5ra3eporv5glfexqgreko6dnzy	164	61	7.5	7.5	CD
work_5ra3eporv5glfexqgreko6dnzy	164	62	58.26	58.26	CD
work_5ra3eporv5glfexqgreko6dnzy	164	63	58.46	58.46	CD
work_5ra3eporv5glfexqgreko6dnzy	164	64	58.81	58.81	CD
work_5ra3eporv5glfexqgreko6dnzy	164	65	8.0	8.0	CD
work_5ra3eporv5glfexqgreko6dnzy	164	66	58.34	58.34	CD
work_5ra3eporv5glfexqgreko6dnzy	164	67	58.53	58.53	CD
work_5ra3eporv5glfexqgreko6dnzy	164	68	58.94	58.94	CD
work_5ra3eporv5glfexqgreko6dnzy	164	69	Table	table	NN
work_5ra3eporv5glfexqgreko6dnzy	164	70	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	164	71	Minimum	minimum	JJ
work_5ra3eporv5glfexqgreko6dnzy	164	72	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	164	73	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	164	74	and	and	CC
work_5ra3eporv5glfexqgreko6dnzy	164	75	frequency	frequency	JJ
work_5ra3eporv5glfexqgreko6dnzy	164	76	settings	setting	NNS
work_5ra3eporv5glfexqgreko6dnzy	164	77	of	of	IN
work_5ra3eporv5glfexqgreko6dnzy	164	78	plan2	plan2	NN
work_5ra3eporv5glfexqgreko6dnzy	164	79	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	165	1	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	165	2	frequency	frequency	NN
work_5ra3eporv5glfexqgreko6dnzy	165	3	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	165	4	Hz	Hz	NNP
work_5ra3eporv5glfexqgreko6dnzy	165	5	)	)	-RRB-
work_5ra3eporv5glfexqgreko6dnzy	165	6	step	step	NN
work_5ra3eporv5glfexqgreko6dnzy	165	7	load	load	NN
work_5ra3eporv5glfexqgreko6dnzy	165	8	shedding	shedding	NN
work_5ra3eporv5glfexqgreko6dnzy	165	9	(	(	-LRB-
work_5ra3eporv5glfexqgreko6dnzy	165	10	D.u.1	D.u.1	NNP
work_5ra3eporv5glfexqgreko6dnzy	165	11	Pchamo=0	Pchamo=0	NNP
work_5ra3eporv5glfexqgreko6dnzy	165	12	6pu	6pu	NN
work_5ra3eporv5glfexqgreko6dnzy	165	13	I	-PRON-	PRP
work_5ra3eporv5glfexqgreko6dnzy	165	14	0.046	0.046	CD
work_5ra3eporv5glfexqgreko6dnzy	165	15	Pceance=0.8Pu	pceance=0.8pu	$
work_5ra3eporv5glfexqgreko6dnzy	165	16	0.091	0.091	CD
work_5ra3eporv5glfexqgreko6dnzy	165	17	Pchanae=1	pchanae=1	JJ
work_5ra3eporv5glfexqgreko6dnzy	165	18	.0pu	.0pu	NFP
work_5ra3eporv5glfexqgreko6dnzy	165	19	0.122	0.122	CD
work_5ra3eporv5glfexqgreko6dnzy	165	20	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	165	21	59.5	59.5	CD
work_5ra3eporv5glfexqgreko6dnzy	165	22	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	165	23	59.3	59.3	CD
work_5ra3eporv5glfexqgreko6dnzy	165	24	0.046	0.046	CD
work_5ra3eporv5glfexqgreko6dnzy	165	25	0.091	0.091	CD
work_5ra3eporv5glfexqgreko6dnzy	165	26	0.122	0.122	CD
work_5ra3eporv5glfexqgreko6dnzy	165	27	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	165	28	59.1	59.1	CD
work_5ra3eporv5glfexqgreko6dnzy	165	29	0.038	0.038	CD
work_5ra3eporv5glfexqgreko6dnzy	165	30	0.077	0.077	CD
work_5ra3eporv5glfexqgreko6dnzy	165	31	0.102	0.102	CD
work_5ra3eporv5glfexqgreko6dnzy	165	32	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	165	33	58.9	58.9	CD
work_5ra3eporv5glfexqgreko6dnzy	165	34	0.038	0.038	CD
work_5ra3eporv5glfexqgreko6dnzy	165	35	0.077	0.077	CD
work_5ra3eporv5glfexqgreko6dnzy	165	36	0.102	0.102	CD
work_5ra3eporv5glfexqgreko6dnzy	165	37	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	165	38	58.7	58.7	CD
work_5ra3eporv5glfexqgreko6dnzy	165	39	0.036	0.036	CD
work_5ra3eporv5glfexqgreko6dnzy	165	40	0.072	0.072	CD
work_5ra3eporv5glfexqgreko6dnzy	165	41	0.096	0.096	CD
work_5ra3eporv5glfexqgreko6dnzy	165	42	6	6	CD
work_5ra3eporv5glfexqgreko6dnzy	165	43	58.5	58.5	CD
work_5ra3eporv5glfexqgreko6dnzy	165	44	0.036	0.036	CD
work_5ra3eporv5glfexqgreko6dnzy	165	45	0.072	0.072	CD
work_5ra3eporv5glfexqgreko6dnzy	165	46	0.096	0.096	CD
work_5ra3eporv5glfexqgreko6dnzy	165	47	total	total	NN
work_5ra3eporv5glfexqgreko6dnzy	165	48	min	min	NN
work_5ra3eporv5glfexqgreko6dnzy	165	49	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	166	1	load	load	NNP
work_5ra3eporv5glfexqgreko6dnzy	166	2	shed	shed	NNP
work_5ra3eporv5glfexqgreko6dnzy	166	3	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	167	1	0.24p.u	0.24p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	167	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	168	1	0.48p.u	0.48p.u	LS
work_5ra3eporv5glfexqgreko6dnzy	168	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	169	1	0.64p.u	0.64p.u	NNP
work_5ra3eporv5glfexqgreko6dnzy	169	2	.	.	.
work_5ra3eporv5glfexqgreko6dnzy	170	1	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	2	1	1	CD
work_5ra3eporv5glfexqgreko6dnzy	170	3	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	4	2	2	CD
work_5ra3eporv5glfexqgreko6dnzy	170	5	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	6	3	3	CD
work_5ra3eporv5glfexqgreko6dnzy	170	7	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	8	4	4	CD
work_5ra3eporv5glfexqgreko6dnzy	170	9	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	10	5	5	CD
work_5ra3eporv5glfexqgreko6dnzy	170	11	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	12	6	6	CD
work_5ra3eporv5glfexqgreko6dnzy	170	13	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	14	7	7	CD
work_5ra3eporv5glfexqgreko6dnzy	170	15	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	16	8	8	CD
work_5ra3eporv5glfexqgreko6dnzy	170	17	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	18	9	9	CD
work_5ra3eporv5glfexqgreko6dnzy	170	19	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	20	10	10	CD
work_5ra3eporv5glfexqgreko6dnzy	170	21	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	22	11	11	CD
work_5ra3eporv5glfexqgreko6dnzy	170	23	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	24	12	12	CD
work_5ra3eporv5glfexqgreko6dnzy	170	25	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	26	13	13	CD
work_5ra3eporv5glfexqgreko6dnzy	170	27	Page	page	NN
work_5ra3eporv5glfexqgreko6dnzy	170	28	14	14	CD