This book is intended both for the general reader interested in collective behavior and for the quantitative researcher looking for an update in this rapidly developing field. The Lotka-Volterra-Haken Model for Group Buying, Apples-to-Apples Group Play and the Competition and Attraction of Leisure Activities Frank, Department of Psychology and Department of Physics, University of Connecticut, USA)Ĭollective Behavior in Adaptive Systems: Application to Prism Adaptation Yushchenko, Nanolectronics Department, Sumy State University, Ukraine)Ĭonsiderations on the SET Model of Swarm Behavior in the Case of Very Large Swarms (Florin Leon, Department of Computer Science and Engineering, Gheorghe Asachi Technical University of Iasi, Romania) Part 2: Mathematical Modeling and SimulationsĪnalysis of Behavior Stability in a Multiagent System (Alan McDonnell, Emergent Dynamic Technologies Ltd, Bristol, United Kingdom) Stochastic Resonation, Paramagnetism and Emotional Contagion in Collective Behaviours (Gabriela Baranowski Pinto, Federal Agency for the Support and Evaluation of Graduate Education, CAPES, Brazilian Government, Brazil) Leisure Phenomenon as a Complex System: Exploring its Potential for a Dynamical Approach (Jason Gordon, Department of Psychology, University of Connecticut, USA) Modeling Social Interactions in Game Play (Giuliana Isabella and Suzi Elen Ferreira Dias, University of Sao Paulo and Faculdades Metropolitanas Unidas, Brazil) Understanding Online Group Purchasing Behavior Although the individual chapters of this book report from a variety of research disciplines, the chapters are interconnected with each other and give rise to a general picture of the state-of-the-art research on collective behavior. The second part provides chapters with mathematical modeling and simulations. The first part presents theoretical fundamentals and concepts. Various disciplines are addressed, ranging from economy, leisure sciences, and psychology to neurosciences, physics and biology. This book presents recent developments in the research field of collective behavior. It is about lifeforms and active biochemical substances. In contrast, in this book, collective behavior refers to systems composed of units that operate far from thermodynamical equilibrium. Magnetism produced by the alignment of elementary spins is a well-known example. In physics, collective phenomena have been studied for a long time for systems that are in thermodynamic equilibrium. As such, collective behavior refers to units (humans, animals, neurons, biochemical substances, etc.) interacting with each other to form a whole. Collective behavior is also concerned with animals forming swarms and flocks, neurons firing in synchrony, and chemical and biochemical particles with on-board energy depots acting together as a whole. “Collective behavior” is can be defined as human individuals acting together in groups these groups can be as small as three people, or as large as millions of people.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |