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OverviewThe description of emerging collective phenomena and self-organization in systems composed of large numbers of individuals has gained increasing interest from various research communities in biology, ecology, robotics and control theory, as well as sociology and economics.Applied mathematics is concerned with the construction, analysis and interpretation of mathematical models that can shed light on significant problems of the natural sciences as well as our daily lives. To this set of problems belongs the description of the collective behaviours of complex systems composed by a large enough number of individuals. Examples of such systems are interacting agents in a financial market, potential voters during political elections, or groups of animals with a tendency to flock or herd. Among other possible approaches, this book provides a step-by-step introduction to the mathematical modelling based on a mesoscopic description and the construction of efficient simulation algorithms by Monte Carlo methods. The arguments of the book cover various applications, from the analysis of wealth distributions, the formation of opinions and choices, the price dynamics in a financial market, to the description of cell mutations and the swarming of birds and fishes. By means of methods inspired by the kinetic theory of rarefied gases, a robust approach to mathematical modelling and numerical simulation of multi-agent systems is presented in detail. The content is a useful reference text for applied mathematicians, physicists, biologists and economists who want to learn about modelling and approximation of such challenging phenomena. Full Product DetailsAuthor: Lorenzo Pareschi (Full Professor of Numerical Analysis, Full Professor of Numerical Analysis, Department of Mathematics and Computer Science, University of Ferrara, Italy) , Giuseppe Toscani (Full Professor of Mathematical Physics, Full Professor of Mathematical Physics, Department of Mathematics, University of Pavia, Italy)Publisher: Oxford University Press Imprint: Oxford University Press Dimensions: Width: 17.60cm , Height: 2.40cm , Length: 24.80cm Weight: 0.920kg ISBN: 9780199655465ISBN 10: 0199655464 Pages: 400 Publication Date: 28 November 2013 Audience: College/higher education , Postgraduate, Research & Scholarly Format: Hardback Publisher's Status: Active Availability: To order Stock availability from the supplier is unknown. We will order it for you and ship this item to you once it is received by us. Table of ContentsPART I: KINETIC MODELLING AND SIMULATION 1: A short introduction to kinetic equations 2: Mathematical tools 3: Monte Carlo strategies 4: Monte Carlo methods for kinetic equations PART II: MULTIAGENT KINETIC EQUATIONS 5: Models for wealth distribution 6: Opinion modelling and consensus formation 7: A further insight into economy and social sciences 8: Modelling in life sciences Appendix A: Basic arguments on Fourier transforms Appendix B: Important probability distributionsReviewsThe area of research on complex, multi-agent systems has gained a lot of momentum recently, and is expanding rapidly. This self-contained book opens the door to this novel field for interested graduate students and researchers. It is based on a solid mathematical foundation and takes its reader on an exciting journey, from the early ideas of Boltzmann and Maxwell to the forefront of today's research. Bertram During, University of Sussex `The book is clearly-written and well organised, and the explanations are straightforward and thorough. The level of exposition is fairly advancedâthe book is probably suitable for advanced undergraduates and graduates' Jo Michell, Mathematical Gazette `The area of research on complex, multi-agent systems has gained a lot of momentum recently, and is expanding rapidly. This self-contained book opens the door to this novel field for interested graduate students and researchers. It is based on a solid mathematical foundation and takes its reader on an exciting journey, from the early ideas of Boltzmann and Maxwell to the forefront of today's research.' Bertram Düring, University of Sussex The area of research on complex, multi-agent systems has gained a lot of momentum recently, and is expanding rapidly. This self-contained book opens the door to this novel field for interested graduate students and researchers. It is based on a solid mathematical foundation and takes its reader on an exciting journey, from the early ideas of Boltzmann and Maxwell to the forefront of today's research. --Bertram During, University of Sussex Author InformationLorenzo Pareschi is full professor of numerical analysis at the University of Ferrara. He holds a PhD in mathematics from Bologna University (1996). He is a leading expert in computational methods and modelling for nonlinear partial differential equations. His research interests include kinetic equations, hyperbolic conservation laws and relaxation systems, stiff systems and Monte Carlo methods. He has co-written three books and more than one hundred peer-reviewed articles. He serves as an associate editor for the SIAM Journal of Scientific Computing (SISC), Multiscale Modelling and Simulation (MMS), Kinetic and Related Models (KRM) and Communications in Mathematical Sciences (CMS). He held visiting professor positions at the University of Wisconsin, Madison (USA), the Georgia Institute of Technology, Atlanta, (USA), the University of Orleans (France) and the University of Toulouse (France). Giuseppe Toscani is full professor of mathematical physics at the University of Pavia. His recent scientific interests are concerned with theoretical and numerical problems connected to the kinetic theory of rarefied gases, asymptotic behaviour of nonlinear diffusion equations by entropy methods, and kinetic modelling of socio-economic multi-agents systems. He has authored around 200 papers, written both individually or jointly with national and international experts, as well as two monographs on the mathematical aspects of Boltzmann equation and of Enskog equation in kinetic theory of rarefied gases. He held visiting professor positions at the Georgia Institute of Technology, Atlanta, (USA), and at the Universities of Paris VI, Paris Dauphine, Nice and Toulouse (France). 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