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| id | author | title | date | words | sentences | text |
|---|---|---|---|---|---|---|
| cord-324993-hs66uf1u | Adwibowo, A. | Flattening the COVID 19 curve in susceptible forest indigenous tribes using SIR model | 2020-05-25 | 3254.0 | 220.0 | view text |
| cord-339425-hdf3blpu | Ahmetolan, Semra | What Can We Estimate From Fatality and Infectious Case Data Using the Susceptible-Infected-Removed (SIR) Model? A Case Study of Covid-19 Pandemic | 2020-09-03 | nan | nan | view text |
| cord-229937-fy90oebs | Amaro, J. E. | Global analysis of the COVID-19 pandemic using simple epidemiological models | 2020-05-14 | 4902.0 | 278.0 | view text |
| cord-103598-8umv06ox | Ambrosio, Benjamin | On a coupled time-dependent SIR models fitting with New York and New-Jersey states COVID-19 data | 2020-06-10 | 4127.0 | 296.0 | view text |
| cord-029725-px209lf0 | Anand, Nikhil | Predicting the Spread of COVID-19 Using [Formula: see text] Model Augmented to Incorporate Quarantine and Testing | 2020-07-24 | 3267.0 | 180.0 | view text |
| cord-342855-dvgqouk2 | Anzum, R. | Mathematical Modeling of Coronavirus Reproduction Rate with Policy and Behavioral Effects | 2020-06-18 | nan | nan | view text |
| cord-155015-w3k7r5z9 | Arazi, R. | Discontinuous transitions of social distancing | 2020-08-16 | 3537.0 | 320.0 | view text |
| cord-212912-t5v11gs0 | Barwolff, Gunter | Prospects and limits of SIR-type Mathematical Models to Capture the COVID-19 Pandemic | 2020-04-13 | 1960.0 | 142.0 | view text |
| cord-167454-ivhqeu01 | Battiston, Pietro | COVID-19: $R_0$ is lower where outbreak is larger | 2020-04-16 | 4524.0 | 201.0 | view text |
| cord-007399-qbgz7eqt | Bilal, Shakir | Effects of quasiperiodic forcing in epidemic models | 2016-09-22 | 5176.0 | 306.0 | view text |
| cord-153905-qszvwqtj | Bizet, Nana Cabo | Modelos SIR modificados para la evoluci''on del COVID19 | 2020-04-23 | 5531.0 | 601.0 | view text |
| cord-247144-crmfwjvf | Bodova, Katarina | Emerging Polynomial Growth Trends in COVID-19 Pandemic Data and Their Reconciliation with Compartment Based Models | 2020-05-14 | 6860.0 | 340.0 | view text |
| cord-016965-z7a6eoyo | Brockmann, Dirk | Human Mobility, Networks and Disease Dynamics on a Global Scale | 2017-10-23 | 6792.0 | 396.0 | view text |
| cord-288884-itviia7v | Chandra, Vedant | Stochastic Compartmental Modelling of SARS-CoV-2 with Approximate Bayesian Computation | 2020-04-01 | 1555.0 | 120.0 | view text |
| cord-194157-ak2gc3nz | Clum, Charles | Parameter estimation in the SIR model from early infections | 2020-08-10 | 4799.0 | 434.0 | view text |
| cord-258018-29vtxz89 | Cooper, Ian | A SIR model assumption for the spread of COVID-19 in different communities | 2020-06-28 | 5815.0 | 268.0 | view text |
| cord-273429-dl6z8x9h | Dandekar, R. | A machine learning aided global diagnostic and comparative tool to assess effect of quarantine control in Covid-19 spread | 2020-07-24 | 5171.0 | 271.0 | view text |
| cord-121428-79wyxedn | Dimarco, G. | Social contacts and the spread of infectious diseases | 2020-09-02 | 8658.0 | 421.0 | view text |
| cord-349898-nvi8h77t | Dinh, Ly | COVID‐19 pandemic and information diffusion analysis on Twitter | 2020-10-22 | nan | nan | view text |
| cord-316393-ozl28ztz | Enrique Amaro, José | Global analysis of the COVID-19 pandemic using simple epidemiological models | 2020-10-22 | nan | nan | view text |
| cord-320912-jfeu4tho | Fukui, M. | Power Laws in Superspreading Events: Evidence from Coronavirus Outbreaks and Implications for SIR Models | 2020-06-12 | nan | nan | view text |
| cord-303030-8unrcb1f | Gaeta, Giuseppe | Social distancing versus early detection and contacts tracing in epidemic management | 2020-07-16 | 11349.0 | 518.0 | view text |
| cord-034824-eelqmzdx | Guo, Chungu | Influential Nodes Identification in Complex Networks via Information Entropy | 2020-02-21 | 5770.0 | 397.0 | view text |
| cord-191574-1g38scnj | Harko, Tiberiu | Series solution of the Susceptible-Infected-Recovered (SIR) epidemic model with vital dynamics via the Adomian and Laplace-Adomian Decomposition Methods | 2020-08-28 | 3732.0 | 238.0 | view text |
| cord-010715-91fob3ax | Hasegawa, Takehisa | Outbreaks in susceptible-infected-removed epidemics with multiple seeds | 2016-03-30 | 5810.0 | 425.0 | view text |
| cord-264248-wqkphg2e | Hazem, Y. | Hasty Reduction of COVID-19 Lockdown Measures Leads to the Second Wave of Infection | 2020-05-26 | 2265.0 | 133.0 | view text |
| cord-335141-ag3j8obh | Higgins, G.C. | FFP3 reusable respirators for COVID-19; adequate and suitable in the healthcare setting | 2020-06-30 | 22051.0 | 1230.0 | view text |
| cord-339789-151d1j4n | Hong, Hyokyoung G. | Estimation of time-varying reproduction numbers underlying epidemiological processes: A new statistical tool for the COVID-19 pandemic | 2020-07-21 | nan | nan | view text |
| cord-184685-ho72q46e | Huang, Tongtong | Population stratification enables modeling effects of reopening policies on mortality and hospitalization rates | 2020-08-10 | 4849.0 | 244.0 | view text |
| cord-186927-b8i85vo7 | Hubert, Emma | Incentives, lockdown, and testing: from Thucydides's analysis to the COVID-19 pandemic | 2020-09-01 | nan | nan | view text |
| cord-277094-2ycmxcuz | Ifguis, Ousama | Simulation of the Final Size of the Evolution Curve of Coronavirus Epidemic in Morocco using the SIR Model | 2020-06-02 | 1223.0 | 55.0 | view text |
| cord-346951-kvh9qt65 | KUMAR, SUNNY | Predication of Pandemic COVID-19 situation in Maharashtra, India | 2020-04-11 | nan | nan | view text |
| cord-146213-924ded7t | Kiamari, Mehrdad | COVID-19 Risk Estimation using a Time-varying SIR-model | 2020-08-11 | 3690.0 | 168.0 | view text |
| cord-289325-jhokn5bu | Lachiany, Menachem | Effects of distribution of infection rate on epidemic models | 2016-08-11 | nan | nan | view text |
| cord-187700-716af719 | Lee, Duan-Shin | Epidemic Spreading in a Social Network with Facial Masks wearing Individuals | 2020-10-31 | 5590.0 | 448.0 | view text |
| cord-243070-0b06zk1q | Lesniewski, Andrew | Epidemic control via stochastic optimal control | 2020-04-14 | 3793.0 | 295.0 | view text |
| cord-241596-vh90s8vi | Libotte, Gustavo Barbosa | Determination of an Optimal Control Strategy for Vaccine Administration in COVID-19 Pandemic Treatment | 2020-04-15 | nan | nan | view text |
| cord-280683-5572l6bo | Liu, Laura | Panel forecasts of country-level Covid-19 infections() | 2020-10-16 | nan | nan | view text |
| cord-326631-7gd3hjc3 | Ma, Junling | Generality of the Final Size Formula for an Epidemic of a Newly Invading Infectious Disease | 2006-04-08 | 7390.0 | 557.0 | view text |
| cord-104158-l7s2utqb | Maheshwari, H. | CoSIR: Managing an Epidemic via Optimal Adaptive Control of Transmission Policy | 2020-11-13 | 5453.0 | 435.0 | view text |
| cord-311183-5blzw9oy | Malavika, B. | Forecasting COVID-19 epidemic in India and high incidence states using SIR and logistic growth models | 2020-06-27 | nan | nan | view text |
| cord-140977-mg04drna | Maltezos, S. | Methodology for Modelling the new COVID-19 Pandemic Spread and Implementation to European Countries | 2020-06-27 | 3985.0 | 211.0 | view text |
| cord-314725-og0ybfzf | Marinov, Tchavdar T. | Dynamics of COVID-19 Using Inverse Problem for Coefficient Identification in SIR Epidemic Models | 2020-07-15 | 4762.0 | 340.0 | view text |
| cord-175366-jomeywqr | Massonis, Gemma | Structural Identifiability and Observability of Compartmental Models of the COVID-19 Pandemic | 2020-06-25 | 6470.0 | 386.0 | view text |
| cord-332922-2qjae0x7 | Mbuvha, Rendani | Bayesian inference of COVID-19 spreading rates in South Africa | 2020-08-05 | nan | nan | view text |
| cord-318688-ditadt8l | Mitarai, O. | Suppression of COVID-19 infection by isolation time control based on the SIR model and an analogy from nuclear fusion research | 2020-09-20 | nan | nan | view text |
| cord-190495-xpfbw7lo | Molnar, Tamas G. | Safety-Critical Control of Compartmental Epidemiological Models with Measurement Delays | 2020-09-22 | 4202.0 | 327.0 | view text |
| cord-220116-6i7kg4mj | Mukhamadiarov, Ruslan I. | Social distancing and epidemic resurgence in agent-based Susceptible-Infectious-Recovered models | 2020-06-03 | 4746.0 | 246.0 | view text |
| cord-293148-t2dk2syq | Nadini, Matthieu | A multi-agent model to study epidemic spreading and vaccination strategies in an urban-like environment | 2020-09-22 | 12285.0 | 726.0 | view text |
| cord-102966-7vdz661d | Nikolaou, M. | A Fundamental Inconsistency in the SIR Model Structure and Proposed Remedies | 2020-05-01 | 4493.0 | 301.0 | view text |
| cord-270519-orh8fd1c | Oliveira, A. C. S. d. | Bayesian modeling of COVID-19 cases with a correction to account for under-reported cases | 2020-05-25 | nan | nan | view text |
| cord-005350-19za0msu | O’Regan, Suzanne M. | Theory of early warning signals of disease emergenceand leading indicators of elimination | 2013-05-31 | 14420.0 | 802.0 | view text |
| cord-310863-jxbw8wl2 | PRASAD, J. | A data first approach to modelling Covid-19 | 2020-05-26 | 7177.0 | 403.0 | view text |
| cord-187462-fxuzd9qf | Palladino, Andrea | Modelling the spread of Covid19 in Italy using a revised version of the SIR model | 2020-05-18 | 3209.0 | 180.0 | view text |
| cord-159425-fgbruo9l | Paticchio, Alessandro | Semi-supervised Neural Networks solve an inverse problem for modeling Covid-19 spread | 2020-10-10 | 2530.0 | 146.0 | view text |
| cord-131678-rvg1ayp2 | Ponce, Marcelo | covid19.analytics: An R Package to Obtain, Analyze and Visualize Data from the Corona Virus Disease Pandemic | 2020-09-02 | nan | nan | view text |
| cord-319435-le2eifv8 | Rahman, Mohammad Mahmudur | Impact of control strategies on COVID-19 pandemic and the SIR model based forecasting in Bangladesh. | 2020-04-23 | 4909.0 | 277.0 | view text |
| cord-279112-ajdkasah | Rojas, S. | Comment on “Estimation of COVID-19 dynamics “on a back-of-envelope”: Does the simplest SIR model provide quantitative parameters and predictions?” | 2020-09-13 | 1843.0 | 101.0 | view text |
| cord-222193-0b4o0ccp | Saakian, David B. | A simple statistical physics model for the epidemic with incubation period | 2020-04-13 | 2072.0 | 139.0 | view text |
| cord-010719-90379pjd | Saeedian, M. | Memory effects on epidemic evolution: The susceptible-infected-recovered epidemic model | 2017-02-21 | 4814.0 | 307.0 | view text |
| cord-297161-ziwfr9dv | Sauter, T. | TESTING INFORMED SIR BASED EPIDEMIOLOGICAL MODEL FOR COVID-19 IN LUXEMBOURG | 2020-07-25 | 2245.0 | 94.0 | view text |
| cord-190296-erpoh5he | Schaback, Robert | On COVID-19 Modelling | 2020-05-11 | 9445.0 | 639.0 | view text |
| cord-007404-s2qnhswe | Shu, Panpan | Numerical identification of epidemic thresholds for susceptible-infected-recovered model on finite-size networks | 2015-06-04 | 4288.0 | 238.0 | view text |
| cord-318525-nc5rtwtd | Smeets, Bart | Scaling analysis of COVID-19 spreading based on Belgian hospitalization data | 2020-03-30 | 2602.0 | 153.0 | view text |
| cord-189434-nrkvbdu4 | Steinmann, Paul | Analytical Mechanics Allows Novel Vistas on Mathematical Epidemic Dynamics Modelling | 2020-06-06 | 5589.0 | 351.0 | view text |
| cord-321984-qjfkvu6n | Tang, Lu | A Review of Multi‐Compartment Infectious Disease Models | 2020-08-03 | 21853.0 | 1094.0 | view text |
| cord-253461-o63ru7nr | Tewari, A. | Temporal Analysis of COVID-19 Peak Outbreak | 2020-09-13 | 1779.0 | 109.0 | view text |
| cord-174036-b3frnfr7 | Thomas, Loring J. | Spatial Heterogeneity Can Lead to Substantial Local Variations in COVID-19 Timing and Severity | 2020-05-20 | 6666.0 | 268.0 | view text |
| cord-152881-k1hx1m61 | Toda, Alexis Akira | Susceptible-Infected-Recovered (SIR) Dynamics of COVID-19 and Economic Impact | 2020-03-25 | 4655.0 | 361.0 | view text |
| cord-188958-id9m3mfk | Vrugt, Michael te | Containing a pandemic: Nonpharmaceutical interventions and the"second wave" | 2020-09-30 | 6303.0 | 423.0 | view text |
| cord-248050-apjwnwky | Vrugt, Michael te | Effects of social distancing and isolation on epidemic spreading: a dynamical density functional theory model | 2020-03-31 | 5112.0 | 331.0 | view text |
| cord-354627-y07w2f43 | pinter, g. | COVID-19 Pandemic Prediction for Hungary; a Hybrid Machine Learning Approach | 2020-05-06 | nan | nan | view text |