Safdar, Salman; Gumel, Abba B. Mathematical assessment of the role of interventions against SARS-CoV-2. (English) Zbl 07819277 David, Jummy (ed.) et al., Mathematics of public health. Mathematical modelling from the next generation. Cham: Springer. Fields Inst. Commun. 88, 243-294 (2024). MSC: 92C60 34C60 34D20 PDFBibTeX XMLCite \textit{S. Safdar} and \textit{A. B. Gumel}, Fields Inst. Commun. 88, 243--294 (2024; Zbl 07819277) Full Text: DOI
Barth, Julius; Li, Su; Aprahamian, Hrayer; Gupta, Diwakar Spatiotemporal vaccine allocation policies for epidemics with behavioral feedback dynamics. (English) Zbl 07813744 Nav. Res. Logist. 71, No. 1, 109-139 (2024). MSC: 92C60 65K10 PDFBibTeX XMLCite \textit{J. Barth} et al., Nav. Res. Logist. 71, No. 1, 109--139 (2024; Zbl 07813744) Full Text: DOI
Kiss, Istvan Z.; Berthouze, Luc; KhudaBukhsh, Wasiur R. Towards inferring network properties from epidemic data. (English) Zbl 07786970 Bull. Math. Biol. 86, No. 1, Paper No. 6, 32 p. (2024). MSC: 92D30 92C42 62P10 PDFBibTeX XMLCite \textit{I. Z. Kiss} et al., Bull. Math. Biol. 86, No. 1, Paper No. 6, 32 p. (2024; Zbl 07786970) Full Text: DOI arXiv OA License
Tanaka, Yuta; Maruno, Ken-ichi Integrable discretizations of the SIR model. (English) Zbl 07817731 RIMS Kôkyûroku Bessatsu B94, 85-115 (2023). MSC: 39A36 37M15 37N25 92D25 PDFBibTeX XMLCite \textit{Y. Tanaka} and \textit{K.-i. Maruno}, RIMS Kôkyûroku Bessatsu B94, 85--115 (2023; Zbl 07817731) Full Text: arXiv Link
Cheng, Xinxin; Wang, Yi; Huang, Gang Edge-based compartmental modeling for the spread of cholera on random networks: a case study in Somalia. (English) Zbl 07805062 Math. Biosci. 366, Article ID 109092, 16 p. (2023). MSC: 92D30 34A30 PDFBibTeX XMLCite \textit{X. Cheng} et al., Math. Biosci. 366, Article ID 109092, 16 p. (2023; Zbl 07805062) Full Text: DOI
Fàbrega, Josep; Martí-Farré, Jaume; Muñoz, Xavier Immune sets in monotone infection rules. Characterization and complexity. (English) Zbl 07774890 Discrete Appl. Math. 339, 202-215 (2023). MSC: 92D30 91D30 05C90 PDFBibTeX XMLCite \textit{J. Fàbrega} et al., Discrete Appl. Math. 339, 202--215 (2023; Zbl 07774890) Full Text: DOI
Ball, Frank; Critcher, Liam; Neal, Peter; Sirl, David The impact of household structure on disease-induced herd immunity. (English) Zbl 07770166 J. Math. Biol. 87, No. 6, Paper No. 83, 47 p. (2023). MSC: 92D30 92C60 PDFBibTeX XMLCite \textit{F. Ball} et al., J. Math. Biol. 87, No. 6, Paper No. 83, 47 p. (2023; Zbl 07770166) Full Text: DOI OA License
Peng, Rui; Wang, Zhi-An; Zhang, Guanghui; Zhou, Maolin Novel spatial profiles of some diffusive SIS epidemic models. (English) Zbl 07770164 J. Math. Biol. 87, No. 6, Paper No. 81, 36 p. (2023). MSC: 35J57 35K57 92D30 PDFBibTeX XMLCite \textit{R. Peng} et al., J. Math. Biol. 87, No. 6, Paper No. 81, 36 p. (2023; Zbl 07770164) Full Text: DOI
Tsemogne, Olivier; Kouam, Willie; Anwar, Ahmed H.; Hayel, Yezekael; Kamhoua, Charles; Deugoué, Gabriel A network centrality game for epidemic control. (English) Zbl 07727639 Fang, Fei (ed.) et al., Decision and game theory for security. 13th international conference, GameSec 2022, Pittsburgh, PA, USA, October 26–28, 2022. Proceedings. Cham: Springer. Lect. Notes Comput. Sci. 13727, 255-273 (2023). MSC: 91A43 91A15 91A27 92D30 68M25 PDFBibTeX XMLCite \textit{O. Tsemogne} et al., Lect. Notes Comput. Sci. 13727, 255--273 (2023; Zbl 07727639) Full Text: DOI
Maheskumar, D.; Jayakumar, T.; Sujitha, S.; Kaviyan, E. Vargees Analytical and numerical approaches to solve a system of nonlinear ordinary differential equations for the spread of dengue fever of with-in host model. (English) Zbl 07727258 Adv. Differ. Equ. Control Process. 30, No. 3, 277-295 (2023). MSC: 92D30 34A34 PDFBibTeX XMLCite \textit{D. Maheskumar} et al., Adv. Differ. Equ. Control Process. 30, No. 3, 277--295 (2023; Zbl 07727258) Full Text: DOI
Kiss, István Z.; Kenah, Eben; Rempała, Grzegorz A. Necessary and sufficient conditions for exact closures of epidemic equations on configuration model networks. (English) Zbl 1516.92111 J. Math. Biol. 87, No. 2, Paper No. 36, 19 p. (2023). MSC: 92D30 92-10 92D25 PDFBibTeX XMLCite \textit{I. Z. Kiss} et al., J. Math. Biol. 87, No. 2, Paper No. 36, 19 p. (2023; Zbl 1516.92111) Full Text: DOI arXiv
Marks, Timo; Feld, Yannick; Hartmann, Alexander K. Large-deviation properties of SIR model incorporating protective measures. (English) Zbl 1519.92283 J. Phys. A, Math. Theor. 56, No. 31, Article ID 314002, 18 p. (2023). MSC: 92D30 60F10 PDFBibTeX XMLCite \textit{T. Marks} et al., J. Phys. A, Math. Theor. 56, No. 31, Article ID 314002, 18 p. (2023; Zbl 1519.92283) Full Text: DOI
He, Runzi; Luo, Xiaofeng; Asamoah, Joshua Kiddy K.; Zhang, Yongxin; Li, Yihong; Jin, Zhen; Sun, Gui-Quan A hierarchical intervention scheme based on epidemic severity in a community network. (English) Zbl 1519.92258 J. Math. Biol. 87, No. 2, Paper No. 29, 32 p. (2023). MSC: 92D30 PDFBibTeX XMLCite \textit{R. He} et al., J. Math. Biol. 87, No. 2, Paper No. 29, 32 p. (2023; Zbl 1519.92258) Full Text: DOI
Awiszus, Kerstin; Knispel, Thomas; Penner, Irina; Svindland, Gregor; Voß, Alexander; Weber, Stefan Modeling and pricing cyber insurance. Idiosyncratic, systematic, and systemic risks. (English) Zbl 1521.91308 Eur. Actuar. J. 13, No. 1, 1-53 (2023). Reviewer: Pavel Stoynov (Sofia) MSC: 91G05 60G55 91A80 92D30 PDFBibTeX XMLCite \textit{K. Awiszus} et al., Eur. Actuar. J. 13, No. 1, 1--53 (2023; Zbl 1521.91308) Full Text: DOI arXiv
Barril, Carles; Bliman, Pierre-Alexandre; Cuadrado, Sílvia Final size for epidemic models with asymptomatic transmission. (English) Zbl 1519.92239 Bull. Math. Biol. 85, No. 6, Paper No. 52, 28 p. (2023). MSC: 92D30 PDFBibTeX XMLCite \textit{C. Barril} et al., Bull. Math. Biol. 85, No. 6, Paper No. 52, 28 p. (2023; Zbl 1519.92239) Full Text: DOI
Yang, Junyuan; Gong, Meijia; Jin, Zhen Existence of the backward bifurcation of a non-Markovian SIS-network model with saturation treatment function. (English) Zbl 1518.92170 Nonlinear Anal., Real World Appl. 73, Article ID 103882, 15 p. (2023). MSC: 92D30 34C23 34D23 PDFBibTeX XMLCite \textit{J. Yang} et al., Nonlinear Anal., Real World Appl. 73, Article ID 103882, 15 p. (2023; Zbl 1518.92170) Full Text: DOI
Li, Jinxian; Yan, Hairong; Jin, Zhen SIR dynamics with infection age in complex heterogeneous networks. (English) Zbl 1509.92020 Commun. Nonlinear Sci. Numer. Simul. 121, Article ID 107183, 20 p. (2023). MSC: 92D30 05C82 PDFBibTeX XMLCite \textit{J. Li} et al., Commun. Nonlinear Sci. Numer. Simul. 121, Article ID 107183, 20 p. (2023; Zbl 1509.92020) Full Text: DOI
Wang, Ning-Ning; Qiu, Shui-Han; Zhong, Xiao Wen; Di, Zeng-Ru Epidemic thresholds identification of susceptible-infected-recovered model based on the eigen microstate. (English) Zbl 1511.92091 Appl. Math. Comput. 449, Article ID 127924, 21 p. (2023). MSC: 92D30 PDFBibTeX XMLCite \textit{N.-N. Wang} et al., Appl. Math. Comput. 449, Article ID 127924, 21 p. (2023; Zbl 1511.92091) Full Text: DOI
Zheng, Tao; Luo, Yantao; Zhou, Xinran; Zhang, Long; Teng, Zhidong Spatial dynamic analysis for COVID-19 epidemic model with diffusion and Beddington-DeAngelis type incidence. (English) Zbl 1515.35289 Commun. Pure Appl. Anal. 22, No. 2, 365-396 (2023). MSC: 35Q92 92D30 92C60 35A01 35A02 35B40 92-08 PDFBibTeX XMLCite \textit{T. Zheng} et al., Commun. Pure Appl. Anal. 22, No. 2, 365--396 (2023; Zbl 1515.35289) Full Text: DOI
Kiss, István Z.; Simon, Péter L. On parameter identifiability in network-based epidemic models. (English) Zbl 1508.92266 Bull. Math. Biol. 85, No. 3, Paper No. 18, 17 p. (2023). MSC: 92D30 92C42 PDFBibTeX XMLCite \textit{I. Z. Kiss} and \textit{P. L. Simon}, Bull. Math. Biol. 85, No. 3, Paper No. 18, 17 p. (2023; Zbl 1508.92266) Full Text: DOI arXiv
KhudaBukhsh, Wasiur R.; Bastian, Caleb Deen; Wascher, Matthew; Klaus, Colin; Sahai, Saumya Yashmohini; Weir, Mark H.; Kenah, Eben; Root, Elisabeth; Tien, Joseph H.; Rempała, Grzegorz A. Projecting COVID-19 cases and hospital burden in Ohio. (English) Zbl 1507.92099 J. Theor. Biol. 561, Article ID 111404, 12 p. (2023). MSC: 92D30 62P10 62N02 PDFBibTeX XMLCite \textit{W. R. KhudaBukhsh} et al., J. Theor. Biol. 561, Article ID 111404, 12 p. (2023; Zbl 1507.92099) Full Text: DOI
Hall, Cameron Luke; Siebert, Bram Alexander Exact solutions and bounds for network SIR and SEIR models using a rooted-tree approximation. (English) Zbl 1506.92093 J. Math. Biol. 86, No. 2, Paper No. 22, 26 p. (2023). MSC: 92D30 60J28 05C90 PDFBibTeX XMLCite \textit{C. L. Hall} and \textit{B. A. Siebert}, J. Math. Biol. 86, No. 2, Paper No. 22, 26 p. (2023; Zbl 1506.92093) Full Text: DOI arXiv
Xue, Yuyi; Chen, Daipeng; Smith?, Stacey R.; Ruan, Xiaoe; Tang, Sanyi Coupling the within-host process and between-host transmission of COVID-19 suggests vaccination and school closures are critical. (English) Zbl 1505.92127 Bull. Math. Biol. 85, No. 1, Paper No. 6, 25 p. (2023); correction ibid. 85, No. 4, Paper No. 26, 1 p. (2023). MSC: 92C60 PDFBibTeX XMLCite \textit{Y. Xue} et al., Bull. Math. Biol. 85, No. 1, Paper No. 6, 25 p. (2023; Zbl 1505.92127) Full Text: DOI
Armbruster, Ashley; Holzer, Matt; Roselli, Noah; Underwood, Lena Epidemic spreading on complex networks as front propagation into an unstable state. (English) Zbl 1505.92185 Bull. Math. Biol. 85, No. 1, Paper No. 4, 28 p. (2023). MSC: 92D30 93C42 35Q92 PDFBibTeX XMLCite \textit{A. Armbruster} et al., Bull. Math. Biol. 85, No. 1, Paper No. 4, 28 p. (2023; Zbl 1505.92185) Full Text: DOI arXiv
Wang, Jun; Cai, Shimin; Wang, Wei; Zhou, Tao Link cooperation effect of cooperative epidemics on complex networks. (English) Zbl 1510.92243 Appl. Math. Comput. 437, Article ID 127537, 9 p. (2023). MSC: 92D30 34D20 91D30 PDFBibTeX XMLCite \textit{J. Wang} et al., Appl. Math. Comput. 437, Article ID 127537, 9 p. (2023; Zbl 1510.92243) Full Text: DOI
Tsiligianni, Christiana; Tsiligiannis, Aristeides; Tsiliyannis, Christos A stochastic inventory model of COVID-19 and robust, real-time identification of carriers at large and infection rate via asymptotic laws. (English) Zbl 1524.92114 Eur. J. Oper. Res. 304, No. 1, 42-56 (2023). MSC: 92D30 90B05 90B22 PDFBibTeX XMLCite \textit{C. Tsiligianni} et al., Eur. J. Oper. Res. 304, No. 1, 42--56 (2023; Zbl 1524.92114) Full Text: DOI
Liu, Wenjia; Wang, Jian; Ouyang, Yanfeng Rumor transmission in online social networks under Nash equilibrium of a psychological decision game. (English) Zbl 07798424 Netw. Spat. Econ. 22, No. 4, 831-854 (2022). MSC: 91Dxx 92Dxx 05Cxx PDFBibTeX XMLCite \textit{W. Liu} et al., Netw. Spat. Econ. 22, No. 4, 831--854 (2022; Zbl 07798424) Full Text: DOI
Fitzpatrick, Ben G.; Federico, Paula; Kanarek, Andrew; Lenhart, Suzanne Control of a consumer-resource agent-based model using partial differential equation approximation. (English) Zbl 07753531 Optim. Control Appl. Methods 43, No. 1, 178-197 (2022). MSC: 92D40 49J20 49J15 PDFBibTeX XMLCite \textit{B. G. Fitzpatrick} et al., Optim. Control Appl. Methods 43, No. 1, 178--197 (2022; Zbl 07753531) Full Text: DOI
Bongarti, Marcelo; Galvan, Luke Diego; Hatcher, Lawford; Lindstrom, Michael R.; Parkinson, Christian; Wang, Chuntian; Bertozzi, Andrea L. Alternative SIAR models for infectious diseases and applications in the study of non-compliance. (English) Zbl 1519.92242 Math. Models Methods Appl. Sci. 32, No. 10, 1987-2015 (2022). Reviewer: Yilun Shang (Newcastle upon Tyne) MSC: 92D30 34D05 PDFBibTeX XMLCite \textit{M. Bongarti} et al., Math. Models Methods Appl. Sci. 32, No. 10, 1987--2015 (2022; Zbl 1519.92242) Full Text: DOI
Bae, Jun Hyung; Lee, Sang-Mook Investigation of SIS epidemics on dynamic network models with temporary link deactivation control schemes. (English) Zbl 1510.92199 Math. Biosci. Eng. 19, No. 6, 6317-6330 (2022). Reviewer: Jiaying Zhou (Shenzhen) MSC: 92D30 34H05 PDFBibTeX XMLCite \textit{J. H. Bae} and \textit{S.-M. Lee}, Math. Biosci. Eng. 19, No. 6, 6317--6330 (2022; Zbl 1510.92199) Full Text: DOI
Backhausz, Ágnes; Kiss, István Z.; Simon, Péter L. The impact of spatial and social structure on an SIR epidemic on a weighted multilayer network. (English) Zbl 07644670 Period. Math. Hung. 85, No. 2, 343-363 (2022). MSC: 92D30 05C80 PDFBibTeX XMLCite \textit{Á. Backhausz} et al., Period. Math. Hung. 85, No. 2, 343--363 (2022; Zbl 07644670) Full Text: DOI
Higham, Desmond John; de Kergorlay, Henry-Louis Mean field analysis of hypergraph contagion models. (English) Zbl 1503.92064 SIAM J. Appl. Math. 82, No. 6, 1987-2007 (2022). MSC: 92D30 91D99 05C65 PDFBibTeX XMLCite \textit{D. J. Higham} and \textit{H.-L. de Kergorlay}, SIAM J. Appl. Math. 82, No. 6, 1987--2007 (2022; Zbl 1503.92064) Full Text: DOI arXiv
Khudabukhsh, Wasiur R.; Woroszylo, Casper; Rempała, Grzegorz A.; Koeppl, Heinz A functional central limit theorem for SI processes on configuration model graphs. (English) Zbl 1503.60041 Adv. Appl. Probab. 54, No. 3, 880-912 (2022). MSC: 60F17 60F05 92D30 PDFBibTeX XMLCite \textit{W. R. Khudabukhsh} et al., Adv. Appl. Probab. 54, No. 3, 880--912 (2022; Zbl 1503.60041) Full Text: DOI
Li, Zhimin; Zhang, Tailei Analysis of a COVID-19 epidemic model with seasonality. (English) Zbl 1505.92209 Bull. Math. Biol. 84, No. 12, Paper No. 146, 21 p. (2022). MSC: 92D30 PDFBibTeX XMLCite \textit{Z. Li} and \textit{T. Zhang}, Bull. Math. Biol. 84, No. 12, Paper No. 146, 21 p. (2022; Zbl 1505.92209) Full Text: DOI
Azizi, Asma; Kazanci, Caner; Komarova, Natalia L.; Wodarz, Dominik Effect of human behavior on the evolution of viral strains during an epidemic. (English) Zbl 1505.92136 Bull. Math. Biol. 84, No. 12, Paper No. 144, 33 p. (2022). MSC: 92D15 93D30 PDFBibTeX XMLCite \textit{A. Azizi} et al., Bull. Math. Biol. 84, No. 12, Paper No. 144, 33 p. (2022; Zbl 1505.92136) Full Text: DOI
Salii, Yaroslav V. Benchmarking optimal control for network dynamic systems with plausible epidemic models. (English) Zbl 1507.92118 Benito, Rosa Maria (ed.) et al., Complex networks & their applications X. Volume 2. Proceedings of the 10th international conference, COMPLEX NETWORKS 2021, Madrid, Spain, November 30 – December 2, 2021. Cham: Springer. Stud. Comput. Intell. 1016, 194-206 (2022). MSC: 92D30 92C42 49J15 PDFBibTeX XMLCite \textit{Y. V. Salii}, Stud. Comput. Intell. 1016, 194--206 (2022; Zbl 1507.92118) Full Text: DOI
Kuehn, Christian; Mölter, Jan The influence of a transport process on the epidemic threshold. (English) Zbl 1504.92141 J. Math. Biol. 85, No. 6-7, Paper No. 62, 39 p. (2022). MSC: 92D30 35Q92 PDFBibTeX XMLCite \textit{C. Kuehn} and \textit{J. Mölter}, J. Math. Biol. 85, No. 6--7, Paper No. 62, 39 p. (2022; Zbl 1504.92141) Full Text: DOI arXiv
Sun, Hongquan; Li, Hong; Zhu, Zhangsheng Dynamics of an SIRS epidemic model with periodic infection rate on a scale-free network. (English) Zbl 1504.92161 J. Biol. Syst. 30, No. 3, 673-693 (2022). Reviewer: Yilun Shang (Newcastle upon Tyne) MSC: 92D30 34D23 PDFBibTeX XMLCite \textit{H. Sun} et al., J. Biol. Syst. 30, No. 3, 673--693 (2022; Zbl 1504.92161) Full Text: DOI
Li, Shuping; Zhao, Xiaorong; Zhang, Ruixia Site-bond percolation model of epidemic spreading with vaccination in complex networks. (English) Zbl 1501.92173 J. Math. Biol. 85, No. 5, Paper No. 49, 14 p. (2022). MSC: 92D30 92C60 60K35 PDFBibTeX XMLCite \textit{S. Li} et al., J. Math. Biol. 85, No. 5, Paper No. 49, 14 p. (2022; Zbl 1501.92173) Full Text: DOI
Li, Shuolin; Henriquez, Craig; Katul, Gabriel The role of geographical spreaders in infectious pattern formation and front propagation speeds. (English) Zbl 1500.92108 Physica D 440, Article ID 133460, 14 p. (2022). MSC: 92D30 92C15 45K05 PDFBibTeX XMLCite \textit{S. Li} et al., Physica D 440, Article ID 133460, 14 p. (2022; Zbl 1500.92108) Full Text: DOI arXiv
Durrett, Rick; Yao, Dong Susceptible-infected epidemics on evolving graphs. (English) Zbl 1500.92103 Electron. J. Probab. 27, Paper No. 110, 66 p. (2022). Reviewer: Yilun Shang (Newcastle upon Tyne) MSC: 92D30 05C90 PDFBibTeX XMLCite \textit{R. Durrett} and \textit{D. Yao}, Electron. J. Probab. 27, Paper No. 110, 66 p. (2022; Zbl 1500.92103) Full Text: DOI arXiv Link
Zerenner, T.; Di Lauro, F.; Dashti, M.; Berthouze, L.; Kiss, I. Z. Probabilistic predictions of SIS epidemics on networks based on population-level observations. (English) Zbl 1497.92325 Math. Biosci. 350, Article ID 108854, 11 p. (2022). MSC: 92D30 60J85 PDFBibTeX XMLCite \textit{T. Zerenner} et al., Math. Biosci. 350, Article ID 108854, 11 p. (2022; Zbl 1497.92325) Full Text: DOI arXiv
Wang, Xueying; Wang, Sunpeng; Wang, Jin; Rong, Libin A multiscale model of COVID-19 dynamics. (English) Zbl 1497.92310 Bull. Math. Biol. 84, No. 9, Paper No. 99, 41 p. (2022). MSC: 92D30 34D20 34C23 PDFBibTeX XMLCite \textit{X. Wang} et al., Bull. Math. Biol. 84, No. 9, Paper No. 99, 41 p. (2022; Zbl 1497.92310) Full Text: DOI
Brouwer, Andrew F. Why the spectral radius? An intuition-building introduction to the basic reproduction number. (English) Zbl 1497.92237 Bull. Math. Biol. 84, No. 9, Paper No. 96, 26 p. (2022). MSC: 92D30 34C60 PDFBibTeX XMLCite \textit{A. F. Brouwer}, Bull. Math. Biol. 84, No. 9, Paper No. 96, 26 p. (2022; Zbl 1497.92237) Full Text: DOI
Horstmeyer, Leonhard; Kuehn, Christian; Thurner, Stefan Balancing quarantine and self-distancing measures in adaptive epidemic networks. (English) Zbl 1497.92153 Bull. Math. Biol. 84, No. 8, Paper No. 79, 22 p. (2022). MSC: 92C60 PDFBibTeX XMLCite \textit{L. Horstmeyer} et al., Bull. Math. Biol. 84, No. 8, Paper No. 79, 22 p. (2022; Zbl 1497.92153) Full Text: DOI arXiv
Montalbán, Antonio; Corder, Rodrigo M.; Gomes, M. Gabriela M. Herd immunity under individual variation and reinfection. (English) Zbl 1496.92120 J. Math. Biol. 85, No. 1, Paper No. 2, 22 p. (2022). Reviewer: Ivy Shiue (Ivalo) MSC: 92D30 PDFBibTeX XMLCite \textit{A. Montalbán} et al., J. Math. Biol. 85, No. 1, Paper No. 2, 22 p. (2022; Zbl 1496.92120) Full Text: DOI arXiv
Tatsukawa, Yuichi; Arefin, Md. Rajib; Utsumi, Shinobu; Kuga, Kazuki; Tanimoto, Jun Stochasticity of disease spreading derived from the microscopic simulation approach for various physical contact networks. (English) Zbl 1510.92241 Appl. Math. Comput. 431, Article ID 127328, 13 p. (2022). MSC: 92D30 PDFBibTeX XMLCite \textit{Y. Tatsukawa} et al., Appl. Math. Comput. 431, Article ID 127328, 13 p. (2022; Zbl 1510.92241) Full Text: DOI
Ibrahim, Slim; Ma, Junling; Manke, Kurtis Generating function approach to the effective degree SIR model. (English) Zbl 1493.92069 J. Math. Biol. 84, No. 7, Paper No. 59, 16 p. (2022). MSC: 92D30 35A01 35A02 PDFBibTeX XMLCite \textit{S. Ibrahim} et al., J. Math. Biol. 84, No. 7, Paper No. 59, 16 p. (2022; Zbl 1493.92069) Full Text: DOI
Corcoran, Carl; Clark, John Michael Adaptive network modeling of social distancing interventions. (English) Zbl 1491.92103 J. Theor. Biol. 546, Article ID 111151, 15 p. (2022). MSC: 92D30 92C42 PDFBibTeX XMLCite \textit{C. Corcoran} and \textit{J. M. Clark}, J. Theor. Biol. 546, Article ID 111151, 15 p. (2022; Zbl 1491.92103) Full Text: DOI arXiv
Chang, Kangkang; Zhang, Qimin Sufficient and necessary conditions of near-optimal controls for a diffusion dengue model with Lévy noise. (English) Zbl 1492.92084 J. Math. Anal. Appl. 514, No. 1, Article ID 126044, 35 p. (2022). MSC: 92D30 60G51 93E20 35Q92 PDFBibTeX XMLCite \textit{K. Chang} and \textit{Q. Zhang}, J. Math. Anal. Appl. 514, No. 1, Article ID 126044, 35 p. (2022; Zbl 1492.92084) Full Text: DOI
Gharouni, Ali; Abdelmalek, Fred M.; Earn, David J. D.; Dushoff, Jonathan; Bolker, Benjamin M. Testing and isolation efficacy: insights from a simple epidemic model. (English) Zbl 1497.92256 Bull. Math. Biol. 84, No. 6, Paper No. 66, 21 p. (2022). Reviewer: Yuming Chen (Waterloo) MSC: 92D30 92-10 PDFBibTeX XMLCite \textit{A. Gharouni} et al., Bull. Math. Biol. 84, No. 6, Paper No. 66, 21 p. (2022; Zbl 1497.92256) Full Text: DOI arXiv
Takács, Bálint; Hadjimichael, Yiannis High order discretization methods for spatial-dependent epidemic models. (English) Zbl 07529660 Math. Comput. Simul. 198, 211-236 (2022). MSC: 92-XX 65-XX PDFBibTeX XMLCite \textit{B. Takács} and \textit{Y. Hadjimichael}, Math. Comput. Simul. 198, 211--236 (2022; Zbl 07529660) Full Text: DOI arXiv
Nguyen, Long; Raissi, Maziar; Seshaiyer, Padmanabhan Modeling, analysis and physics informed neural network approaches for studying the dynamics of COVID-19 involving human-human and human-pathogen interaction. (English) Zbl 1489.92172 Comput. Math. Biophys. 10, No. 1, 1-17 (2022). MSC: 92D30 68T07 PDFBibTeX XMLCite \textit{L. Nguyen} et al., Comput. Math. Biophys. 10, No. 1, 1--17 (2022; Zbl 1489.92172) Full Text: DOI
Batlle, Pau; Bruna, Joan; Fernandez-Granda, Carlos; Preciado, Victor M. Adaptive test allocation for outbreak detection and tracking in social contact networks. (English) Zbl 1490.92072 SIAM J. Control Optim. 60, No. 2, S274-S293 (2022). Reviewer: Yilun Shang (Newcastle) MSC: 92D30 91D30 60J20 90C35 PDFBibTeX XMLCite \textit{P. Batlle} et al., SIAM J. Control Optim. 60, No. 2, S274--S293 (2022; Zbl 1490.92072) Full Text: DOI arXiv
Griette, Quentin; Demongeot, Jacques; Magal, Pierre What can we learn from COVID-19 data by using epidemic models with unidentified infectious cases? (English) Zbl 1486.92227 Math. Biosci. Eng. 19, No. 1, 537-594 (2022). MSC: 92D30 92C60 PDFBibTeX XMLCite \textit{Q. Griette} et al., Math. Biosci. Eng. 19, No. 1, 537--594 (2022; Zbl 1486.92227) Full Text: DOI
Amini, Hamed; Minca, Andreea Epidemic spreading and equilibrium social distancing in heterogeneous networks. (English) Zbl 1489.92135 Dyn. Games Appl. 12, No. 1, 258-287 (2022). MSC: 92D30 91A43 91A80 PDFBibTeX XMLCite \textit{H. Amini} and \textit{A. Minca}, Dyn. Games Appl. 12, No. 1, 258--287 (2022; Zbl 1489.92135) Full Text: DOI arXiv
Tsemogne, Olivier; Hayel, Yezekael; Kamhoua, Charles; Deugoue, Gabriel A partially observable stochastic zero-sum game for a network epidemic control problem. (English) Zbl 1489.91019 Dyn. Games Appl. 12, No. 1, 82-109 (2022). MSC: 91A15 91A27 92D30 91A80 PDFBibTeX XMLCite \textit{O. Tsemogne} et al., Dyn. Games Appl. 12, No. 1, 82--109 (2022; Zbl 1489.91019) Full Text: DOI
Giménez-Mujica, U. J.; Anzo-Hernández, A.; Velázquez-Castro, J. Epidemic local final size in a metapopulation network as indicator of geographical priority for control strategies in SIR type diseases. (English) Zbl 1486.92226 Math. Biosci. 343, Article ID 108730, 11 p. (2022). MSC: 92D30 PDFBibTeX XMLCite \textit{U. J. Giménez-Mujica} et al., Math. Biosci. 343, Article ID 108730, 11 p. (2022; Zbl 1486.92226) Full Text: DOI
Feng, Shanshan; Zhang, Juping; Li, Juan; Luo, Xiao-Feng; Zhu, Huaiping; Li, Michael Y.; Jin, Zhen The impact of quarantine and medical resources on the control of COVID-19 in Wuhan based on a household model. (English) Zbl 1486.92223 Bull. Math. Biol. 84, No. 4, Paper No. 47, 23 p. (2022). MSC: 92D30 92C60 PDFBibTeX XMLCite \textit{S. Feng} et al., Bull. Math. Biol. 84, No. 4, Paper No. 47, 23 p. (2022; Zbl 1486.92223) Full Text: DOI
Wang, Yi; Ma, Junling; Cao, Jinde Basic reproduction number for the SIR epidemic in degree correlated networks. (English) Zbl 1486.92296 Physica D 433, Article ID 133183, 11 p. (2022). MSC: 92D30 92C42 PDFBibTeX XMLCite \textit{Y. Wang} et al., Physica D 433, Article ID 133183, 11 p. (2022; Zbl 1486.92296) Full Text: DOI
James, Nick; Menzies, Max; Bondell, Howard Comparing the dynamics of COVID-19 infection and mortality in the United States, India, and Brazil. (English) Zbl 1486.92237 Physica D 432, Article ID 133158, 12 p. (2022). MSC: 92D30 PDFBibTeX XMLCite \textit{N. James} et al., Physica D 432, Article ID 133158, 12 p. (2022; Zbl 1486.92237) Full Text: DOI arXiv
Peng, Xiao-Long; Li, Chun-Yan; Qi, Hong; Sun, Gui-Quan; Wang, Zhen; Wu, Yong-Ping Competition between awareness and epidemic spreading in homogeneous networks with demography. (English) Zbl 1510.92234 Appl. Math. Comput. 420, Article ID 126875, 20 p. (2022). MSC: 92D30 PDFBibTeX XMLCite \textit{X.-L. Peng} et al., Appl. Math. Comput. 420, Article ID 126875, 20 p. (2022; Zbl 1510.92234) Full Text: DOI
Meng, Lingqi; Masuda, Naoki Epidemic dynamics on metapopulation networks with node2vec mobility. (English) Zbl 1480.92208 J. Theor. Biol. 534, Article ID 110960, 12 p. (2022). MSC: 92D30 92C42 60G50 PDFBibTeX XMLCite \textit{L. Meng} and \textit{N. Masuda}, J. Theor. Biol. 534, Article ID 110960, 12 p. (2022; Zbl 1480.92208) Full Text: DOI arXiv
Vaidya, Naveen K.; Wang, Feng-Bin Persistence of mosquito vector and dengue: impact of seasonal and diurnal temperature variations. (English) Zbl 1486.34103 Discrete Contin. Dyn. Syst., Ser. B 27, No. 1, 393-420 (2022). MSC: 34C60 37C60 92C60 34C05 34C25 34D20 34D05 92D30 PDFBibTeX XMLCite \textit{N. K. Vaidya} and \textit{F.-B. Wang}, Discrete Contin. Dyn. Syst., Ser. B 27, No. 1, 393--420 (2022; Zbl 1486.34103) Full Text: DOI
Overton, Christopher E.; Wilkinson, Robert R.; Loyinmi, Adedapo; Miller, Joel C.; Sharkey, Kieran J. Approximating quasi-stationary behaviour in network-based SIS dynamics. (English) Zbl 1478.92219 Bull. Math. Biol. 84, No. 1, Paper No. 4, 32 p. (2022). MSC: 92D30 60H30 PDFBibTeX XMLCite \textit{C. E. Overton} et al., Bull. Math. Biol. 84, No. 1, Paper No. 4, 32 p. (2022; Zbl 1478.92219) Full Text: DOI
Webb, Glenn A COVID-19 epidemic model predicting the effectiveness of vaccination. (English) Zbl 1498.92271 Math. Appl. Sci. Eng. 2, No. 2, 134-148 (2021). MSC: 92D30 92C60 PDFBibTeX XMLCite \textit{G. Webb}, Math. Appl. Sci. Eng. 2, No. 2, 134--148 (2021; Zbl 1498.92271) Full Text: DOI
Langa, Franck Davhys Reval; Moussata, Cyr S. Ngamouyih; Mabonzo, Vital Delmas; Mampassi, Benjamin An estimation of the COVID-19 peak: case of Congo-Brazzaville. (English) Zbl 1499.92118 Univers. J. Math. Math. Sci. 14, No. 2, 57-65 (2021). MSC: 92D30 PDFBibTeX XMLCite \textit{F. D. R. Langa} et al., Univers. J. Math. Math. Sci. 14, No. 2, 57--65 (2021; Zbl 1499.92118) Full Text: DOI
Ferreyra, Emanuel Javier; Jonckheere, Matthieu; Pinasco, Juan Pablo SIR dynamics with vaccination in a large configuration model. (English) Zbl 1486.92109 Appl. Math. Optim. 84, Suppl. 2, 1769-1818 (2021). MSC: 92C60 49N80 91A16 91A80 PDFBibTeX XMLCite \textit{E. J. Ferreyra} et al., Appl. Math. Optim. 84, 1769--1818 (2021; Zbl 1486.92109) Full Text: DOI arXiv
Kröger, Martin; Turkyilmazoglu, Mustafa; Schlickeiser, Reinhard Explicit formulae for the peak time of an epidemic from the SIR model. Which approximant to use? (English) Zbl 1482.92102 Physica D 425, Article ID 132981, 9 p. (2021). MSC: 92D30 PDFBibTeX XMLCite \textit{M. Kröger} et al., Physica D 425, Article ID 132981, 9 p. (2021; Zbl 1482.92102) Full Text: DOI
James, Nick; Menzies, Max Trends in COVID-19 prevalence and mortality: a year in review. (English) Zbl 1490.92091 Physica D 425, Article ID 132968, 12 p. (2021). MSC: 92D30 62M10 PDFBibTeX XMLCite \textit{N. James} and \textit{M. Menzies}, Physica D 425, Article ID 132968, 12 p. (2021; Zbl 1490.92091) Full Text: DOI arXiv
Bartesaghi, Paolo; Estrada, Ernesto Where to cut to delay a pandemic with minimum disruption? Mathematical analysis based on the SIS model. (English) Zbl 1481.92131 Math. Models Methods Appl. Sci. 31, No. 12, 2571-2596 (2021). MSC: 92D30 05C90 PDFBibTeX XMLCite \textit{P. Bartesaghi} and \textit{E. Estrada}, Math. Models Methods Appl. Sci. 31, No. 12, 2571--2596 (2021; Zbl 1481.92131) Full Text: DOI arXiv
Peng, Kaiyan; Lu, Zheng; Lin, Vanessa; Lindstrom, Michael R.; Parkinson, Christian; Wang, Chuntian; Bertozzi, Andrea L.; Porter, Mason A. A multilayer network model of the coevolution of the spread of a disease and competing opinions. (English) Zbl 1482.91167 Math. Models Methods Appl. Sci. 31, No. 12, 2455-2494 (2021). MSC: 91D30 92D30 PDFBibTeX XMLCite \textit{K. Peng} et al., Math. Models Methods Appl. Sci. 31, No. 12, 2455--2494 (2021; Zbl 1482.91167) Full Text: DOI arXiv
Wang, Dong; Small, Michael; Zhao, Yi Exploring the optimal network topology for spreading dynamics. (English) Zbl 1527.92069 Physica A 564, Article ID 125535, 8 p. (2021). MSC: 92D30 05C80 PDFBibTeX XMLCite \textit{D. Wang} et al., Physica A 564, Article ID 125535, 8 p. (2021; Zbl 1527.92069) Full Text: DOI
Di Lauro, Francesco; Berthouze, Luc; Dorey, Matthew D.; Miller, Joel C.; Kiss, István Z. The impact of contact structure and mixing on control measures and disease-induced herd immunity in epidemic models: a mean-field model perspective. (English) Zbl 1482.92092 Bull. Math. Biol. 83, No. 11, Paper No. 117, 25 p. (2021). Reviewer: Attila Dénes (Szeged) MSC: 92D30 PDFBibTeX XMLCite \textit{F. Di Lauro} et al., Bull. Math. Biol. 83, No. 11, Paper No. 117, 25 p. (2021; Zbl 1482.92092) Full Text: DOI arXiv
Tocto-Erazo, Mayra R.; Olmos-Liceaga, Daniel; Montoya, José A. Effect of daily periodic human movement on dengue dynamics: the case of the 2010 outbreak in Hermosillo, Mexico. (English) Zbl 1481.92167 Appl. Math. Modelling 97, 559-567 (2021). MSC: 92D30 62F10 PDFBibTeX XMLCite \textit{M. R. Tocto-Erazo} et al., Appl. Math. Modelling 97, 559--567 (2021; Zbl 1481.92167) Full Text: DOI DOI
Núñez-López, M.; Alarcón Ramos, L.; Velasco-Hernández, J. X. Migration rate estimation in an epidemic network. (English) Zbl 1481.92154 Appl. Math. Modelling 89, Part 2, 1949-1964 (2021). MSC: 92D30 62P10 PDFBibTeX XMLCite \textit{M. Núñez-López} et al., Appl. Math. Modelling 89, Part 2, 1949--1964 (2021; Zbl 1481.92154) Full Text: DOI Link
Almeida, Luis; Bliman, Pierre-Alexandre; Nadin, Grégoire; Perthame, Benoît; Vauchelet, Nicolas Final size and convergence rate for an epidemic in heterogeneous populations. (English) Zbl 1473.92034 Math. Models Methods Appl. Sci. 31, No. 5, 1021-1051 (2021). MSC: 92D30 35Q92 35R09 45C05 45G15 PDFBibTeX XMLCite \textit{L. Almeida} et al., Math. Models Methods Appl. Sci. 31, No. 5, 1021--1051 (2021; Zbl 1473.92034) Full Text: DOI arXiv
Cavataio, Joseph; Schnell, Santiago Interpreting SARS-CoV-2 seroprevalence, deaths, and fatality rate – making a case for standardized reporting to improve communication. (English) Zbl 1475.92150 Math. Biosci. 333, Article ID 108545, 10 p. (2021). MSC: 92D30 92C60 92-02 PDFBibTeX XMLCite \textit{J. Cavataio} and \textit{S. Schnell}, Math. Biosci. 333, Article ID 108545, 10 p. (2021; Zbl 1475.92150) Full Text: DOI
Ball, Frank Central limit theorems for SIR epidemics and percolation on configuration model random graphs. (English) Zbl 1475.92147 Ann. Appl. Probab. 31, No. 5, 2091-2142 (2021). MSC: 92D30 05C80 60F05 PDFBibTeX XMLCite \textit{F. Ball}, Ann. Appl. Probab. 31, No. 5, 2091--2142 (2021; Zbl 1475.92147) Full Text: DOI arXiv Link
Chen, Peng; Wu, Keyi; Ghattas, Omar Bayesian inference of heterogeneous epidemic models: application to COVID-19 spread accounting for long-term care facilities. (English) Zbl 1502.62098 Comput. Methods Appl. Mech. Eng. 385, Article ID 114020, 26 p. (2021). MSC: 62P10 62F15 92D30 PDFBibTeX XMLCite \textit{P. Chen} et al., Comput. Methods Appl. Mech. Eng. 385, Article ID 114020, 26 p. (2021; Zbl 1502.62098) Full Text: DOI arXiv
Jardón-Kojakhmetov, Hildeberto; Kuehn, Christian; Pugliese, Andrea; Sensi, Mattia A geometric analysis of the SIRS epidemiological model on a homogeneous network. (English) Zbl 1479.34083 J. Math. Biol. 83, No. 4, Paper No. 37, 38 p. (2021). MSC: 34C60 34C05 34D20 34E13 34E15 34C23 34C26 92D30 34C20 PDFBibTeX XMLCite \textit{H. Jardón-Kojakhmetov} et al., J. Math. Biol. 83, No. 4, Paper No. 37, 38 p. (2021; Zbl 1479.34083) Full Text: DOI arXiv
Mahler, Barbara I. Analysis of contagion maps on a class of networks that are spatially embedded in a torus. (English) Zbl 1467.91120 SIAM J. Appl. Math. 81, No. 4, 1416-1440 (2021). MSC: 91D30 92D30 55N31 05C82 PDFBibTeX XMLCite \textit{B. I. Mahler}, SIAM J. Appl. Math. 81, No. 4, 1416--1440 (2021; Zbl 1467.91120) Full Text: DOI arXiv
Prasse, Bastian; Devriendt, Karel; Van Mieghem, Piet Clustering for epidemics on networks: a geometric approach. (English) Zbl 1465.92126 Chaos 31, No. 6, 063115, 24 p. (2021). MSC: 92D30 PDFBibTeX XMLCite \textit{B. Prasse} et al., Chaos 31, No. 6, 063115, 24 p. (2021; Zbl 1465.92126) Full Text: DOI arXiv
Li, Weiqiang; Zhou, Jin; Jin, Zhen; Lu, Jun-an The combination of targeted vaccination and ring vaccination. (English) Zbl 1465.92121 Chaos 31, No. 6, 063108, 8 p. (2021). MSC: 92D30 92C60 PDFBibTeX XMLCite \textit{W. Li} et al., Chaos 31, No. 6, 063108, 8 p. (2021; Zbl 1465.92121) Full Text: DOI
Corcoran, Carl; Hastings, Alan A low-dimensional network model for an SIS epidemic: analysis of the super compact pairwise model. (English) Zbl 1467.92183 Bull. Math. Biol. 83, No. 7, Paper No. 77, 26 p. (2021). MSC: 92D30 PDFBibTeX XMLCite \textit{C. Corcoran} and \textit{A. Hastings}, Bull. Math. Biol. 83, No. 7, Paper No. 77, 26 p. (2021; Zbl 1467.92183) Full Text: DOI arXiv
Wang, Dong; Zhao, Yi; Luo, Jianfeng; Leng, Hui Simplicial SIRS epidemic models with nonlinear incidence rates. (English) Zbl 1462.92054 Chaos 31, No. 5, 053112, 13 p. (2021). MSC: 92D30 91D30 PDFBibTeX XMLCite \textit{D. Wang} et al., Chaos 31, No. 5, 053112, 13 p. (2021; Zbl 1462.92054) Full Text: DOI
Bliman, Pierre-Alexandre; Duprez, Michel; Privat, Yannick; Vauchelet, Nicolas Optimal immunity control and final size minimization by social distancing for the SIR epidemic model. (English) Zbl 1467.92175 J. Optim. Theory Appl. 189, No. 2, 408-436 (2021). Reviewer: Yilun Shang (Newcastle) MSC: 92D30 49J15 49K15 PDFBibTeX XMLCite \textit{P.-A. Bliman} et al., J. Optim. Theory Appl. 189, No. 2, 408--436 (2021; Zbl 1467.92175) Full Text: DOI
Tavasoli, Ali; Shakeri, Heman; Ardjmand, Ehsan; Young, William A. Incentive rate determination in viral marketing. (English) Zbl 1487.90422 Eur. J. Oper. Res. 289, No. 3, 1169-1187 (2021). MSC: 90B60 91D30 92D30 PDFBibTeX XMLCite \textit{A. Tavasoli} et al., Eur. J. Oper. Res. 289, No. 3, 1169--1187 (2021; Zbl 1487.90422) Full Text: DOI
Xue, Ling; Ren, Xue; Magpantay, Felicia; Sun, Wei; Zhu, Huaiping Optimal control of mitigation strategies for dengue virus transmission. (English) Zbl 1460.92123 Bull. Math. Biol. 83, No. 2, Paper No. 8, 28 p. (2021). MSC: 92C60 49J15 PDFBibTeX XMLCite \textit{L. Xue} et al., Bull. Math. Biol. 83, No. 2, Paper No. 8, 28 p. (2021; Zbl 1460.92123) Full Text: DOI
Nipa, Kaniz Fatema; Jang, Sophia R.-J.; Allen, Linda J. S. The effect of demographic and environmental variability on disease outbreak for a dengue model with a seasonally varying vector population. (English) Zbl 1460.92214 Math. Biosci. 331, Article ID 108516, 19 p. (2021). MSC: 92D30 60H10 60J28 PDFBibTeX XMLCite \textit{K. F. Nipa} et al., Math. Biosci. 331, Article ID 108516, 19 p. (2021; Zbl 1460.92214) Full Text: DOI
Tamilalagan, P.; Karthiga, S.; Manivannan, P. Dynamics of fractional order HIV infection model with antibody and cytotoxic t-lymphocyte immune responses. (English) Zbl 1450.34035 J. Comput. Appl. Math. 382, Article ID 113064, 9 p. (2021). MSC: 34C60 92C60 34A08 34C05 34D05 34D20 PDFBibTeX XMLCite \textit{P. Tamilalagan} et al., J. Comput. Appl. Math. 382, Article ID 113064, 9 p. (2021; Zbl 1450.34035) Full Text: DOI
Britton, Tom Epidemic models on social networks – with inference. (English) Zbl 07778427 Stat. Neerl. 74, No. 3, 222-241 (2020). MSC: 05Cxx 92Dxx 62Pxx PDFBibTeX XMLCite \textit{T. Britton}, Stat. Neerl. 74, No. 3, 222--241 (2020; Zbl 07778427) Full Text: DOI arXiv OA License
Wang, Yi; Wei, Zhouchao; Cao, Jinde Epidemic dynamics of influenza-like diseases spreading in complex networks. (English) Zbl 1517.92045 Nonlinear Dyn. 101, No. 3, 1801-1820 (2020). MSC: 92D30 34B45 PDFBibTeX XMLCite \textit{Y. Wang} et al., Nonlinear Dyn. 101, No. 3, 1801--1820 (2020; Zbl 1517.92045) Full Text: DOI
Haw, David J.; Pung, Rachael; Riley, Steven Strong spatial embedding of social networks generates nonstandard epidemic dynamics independent of degree distribution and clustering. (English) Zbl 1485.92131 Proc. Natl. Acad. Sci. USA 117, No. 38, 23637 (2020). MSC: 92D30 91D30 PDFBibTeX XMLCite \textit{D. J. Haw} et al., Proc. Natl. Acad. Sci. USA 117, No. 38, 23637 (2020; Zbl 1485.92131) Full Text: DOI
Bertozzi, Andrea L.; Franco, Elisa; Sledge, Daniel The challenges of modeling and forecasting the spread of COVID-19. (English) Zbl 1485.92115 Proc. Natl. Acad. Sci. USA 117, No. 29, 16733 (2020). MSC: 92D30 PDFBibTeX XMLCite \textit{A. L. Bertozzi} et al., Proc. Natl. Acad. Sci. USA 117, No. 29, 16733 (2020; Zbl 1485.92115) Full Text: DOI
Piovella, Nicola Analytical solution of SEIR model describing the free spread of the COVID-19 pandemic. (English) Zbl 1495.92097 Chaos Solitons Fractals 140, Article ID 110243, 7 p. (2020). MSC: 92D30 92D25 37N25 PDFBibTeX XMLCite \textit{N. Piovella}, Chaos Solitons Fractals 140, Article ID 110243, 7 p. (2020; Zbl 1495.92097) Full Text: DOI arXiv
Cadoni, Mariano How to reduce epidemic peaks keeping under control the time-span of the epidemic. (English) Zbl 1490.92074 Chaos Solitons Fractals 138, Article ID 109940, 6 p. (2020). MSC: 92D30 92D25 PDFBibTeX XMLCite \textit{M. Cadoni}, Chaos Solitons Fractals 138, Article ID 109940, 6 p. (2020; Zbl 1490.92074) Full Text: DOI arXiv
Fatmawati; Khan, Muhammad Altaf; Alfiniyah, Cicik; Alzahrani, Ebraheem Analysis of dengue model with fractal-fractional Caputo-Fabrizio operator. (English) Zbl 1486.92222 Adv. Difference Equ. 2020, Paper No. 422, 23 p. (2020); corrigendum ibid. 2021, Paper No. 46, 1 p. (2021). MSC: 92D30 92C60 26A33 34A08 PDFBibTeX XMLCite \textit{Fatmawati} et al., Adv. Difference Equ. 2020, Paper No. 422, 23 p. (2020; Zbl 1486.92222) Full Text: DOI
Ballesteros, Angel; Blasco, Alfonso; Gutierrez-Sagredo, Ivan Hamiltonian structure of compartmental epidemiological models. (English) Zbl 1485.92111 Physica D 413, Article ID 132656, 18 p. (2020). MSC: 92D30 PDFBibTeX XMLCite \textit{A. Ballesteros} et al., Physica D 413, Article ID 132656, 18 p. (2020; Zbl 1485.92111) Full Text: DOI arXiv
Georgiou, Nicos; Kiss, István Z.; Simon, P. L. Theoretical and numerical considerations of the assumptions behind triple closures in epidemic models on networks. (English) Zbl 1480.92196 Mondaini, Rubem P. (ed.), Trends in biomathematics: modeling cells, flows, epidemics, and the environment. Selected works presented at the 19th BIOMAT consortium lectures, Szeged, Hungary, October 21–25, 2019. Cham: Springer. 209-234 (2020). MSC: 92D30 92C42 PDFBibTeX XMLCite \textit{N. Georgiou} et al., in: Trends in biomathematics: modeling cells, flows, epidemics, and the environment. Selected works presented at the 19th BIOMAT consortium lectures, Szeged, Hungary, October 21--25, 2019. Cham: Springer. 209--234 (2020; Zbl 1480.92196) Full Text: DOI arXiv