Browsing Mathematical Modelling with Multidisciplinary Applications (M3A) by Title
Now showing items 291-301 of 301
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Understanding COVID-19 Epidemics: A Multi-Scale Modeling Approach
(2022-02-18)COVID-19 was declared a pandemic by the World Health Organization in March 2020 and, since then, research on mathematical modeling became imperative and very influential to understand the epidemiological dynamics of disease ... -
Unlocking datasets by calibrating populations of models to data density: a study in atrial electrophysiology
(2018-01-10)The understanding of complex physical or biological systems nearly always requires a characterization of the variability that underpins these processes. In addition, the data used to calibrate these models may also often ... -
Unveiling Interfacial Li-Ion Dynamics in Li7La3Zr2O12/PEO(LiTFSI) Composite Polymer-Ceramic Solid Electrolytes for All-Solid-State Lithium Batteries
(2021-06-23)Unlocking the full potential of solid-state electrolytes (SSEs) is key to enabling safer and more-energy dense technologies than today’s Li-ion batteries. In particular, composite materials comprising a conductive, flexible ... -
Using discrete Ricci curvatures to infer COVID-19 epidemic network fragility and systemic risk
(2021)The damage of the novel Coronavirus disease (COVID-19) is reaching unprecedented scales. There are numerous classical epidemiology models trying to quantify epidemiology metrics. Usually, to forecast epidemics, classical ... -
Valley-dependent Lorentz force and Aharonov-Bohm phase in strained graphene p-n junction
(2019)Veselago lens focusing in graphene p-n junction is promising for realizations of new generation electron optics devices. However, the effect of the strain-induced Aharonov-Bohm interference in a p-n junction has not been ... -
Variance Reduction with Array-RQMC for Tau-Leaping Simulation of Stochastic Biological and Chemical Reaction Networks
(2021)We explore the use of Array-RQMC, a randomized quasi-Monte Carlo method designed for the simulation of Markov chains, to reduce the variance when simulating stochastic biological or chemical reaction networks with ... -
Wealth distribution and the Lorenz curve: a finitary approach
(2015-12-31)We use three stochastic games for the wealth of economic agents which may be at work in a real economy and we derive their statistical equilibrium distributions. Based on a heuristic argument, we assume that the expected ... -
What is life? A perspective of the mathematical kinetic theory of active particles
(2021)The modeling of living systems composed of many interacting entities is treated in this paper with the aim of describing their collective behaviors. The mathematical approach is developed within the general framework of ... -
Why we should use topological data analysis in ageing: Towards defining the “topological shape of ageing”
(2020-10-27)Living systems are subject to the arrow of time; from birth, they undergo complex transformations (self-organization) in a constant battle for survival, but inevitably ageing and disease trap them to death. Can ageing be ... -
Wigner's friends, tunnelling times and Feynman's "only mystery of quantum mechanics"
(2022-01-13)Recent developments in elementary quantum mechanics have seen a number of extraordinary claims regarding quantum behaviour, and even questioning internal consistency of the theory. These are, we argue, different disguises ... -
Within-host models unravelling the dynamics of dengue reinfections
(2024-02-07)Caused by four serotypes, dengue fever is a major public health concern worldwide. Current modeling efforts have mostly focused on primary and heterologous secondary infections, assuming that lifelong immunity prevents ...