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Mathematical Approaches to Biological Systems electronic resource Networks, Oscillations, and Collective Motions / edited by Toru Ohira, Tohru Uzawa.

Contributor(s): Ohira, Toru [editor.] | Uzawa, Tohru [editor.] | SpringerLink (Online service)Material type: TextTextPublication details: Tokyo : Springer Japan : Imprint: Springer, 2015Description: IX, 166 p. 67 illus., 29 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9784431554448Subject(s): Life Sciences | Bioinformatics | Systems Biology | Computational biology | Neural networks (Computer science) | Life Sciences | Computer Appl. in Life Sciences | Systems Biology | Mathematical Models of Cognitive Processes and Neural Networks | Computational Biology/BioinformaticsDDC classification: 570.285 LOC classification: QH324.2-324.25Online resources: Click here to access online
Contents:
1 Human Balance Control: Dead Zones, Intermittency, and Micro-Chaos (John Milton, Tamas Insperger, and Gabor Stepan) -- 2 Dynamical Robustness of Complex Biological Networks (Gouhei Tanaka, Kai Morino, and Kazuyuki Aihara) -- 3 Hardware-Oriented Neuron Modeling Approach by Reconfigurable Asynchronous Cellar Automaton (Takashi Matsubara and Hiroyuki Torikai) -- 4 Entrainment Limit of Weakly Forced Nonlinear Oscillators (Hisa-Aki Tanaka) -- 5 A Universal Mechanism of Determining the Robustness of Evolving Systems (Takashi Shimada) -- 6 Switching of Primarily Relied Information by Ants: A Combinatorial Study of Experiment and Modeling (Yusuke Ogihara, Osamu Yamanaka, Toshiaki Akino, Shunsuke Izumi, Akinori Awazu, and Hiraku Nishimori) -- 7 Chases and Escapes: From Singles to Groups (Atsushi Kamimura, Shigenori Matsumoto, and Toru Ohira).
In: Springer eBooksSummary: This book presents the most recent mathematical approaches to the growing research area of networks, oscillations, and collective motions in the context of biological systems. Bringing together the results of multiple studies of different biological systems, this book sheds light on the relations among these research themes. Included in this book are the following topics: feedback systems with time delay and threshold of sensing (dead zone), robustness of biological networks from the point of view of dynamical systems, the hardware-oriented neuron modeling approach, a universal mechanism governing the entrainment limit under weak forcing, the robustness mechanism of open complex systems, situation-dependent switching of the cues primarily relied on by foraging ants, and group chase and escape. Research on different biological systems is presented together, not separated by specializations or by model systems. Therefore, the book provides diverse perspectives at the forefront of current mathematical research on biological systems, especially focused on networks, oscillations, and collective motions. This work is aimed at advanced undergraduate, graduate, and postdoctoral students, as well as scientists and engineers. It will also be of great use for professionals in industries and service sectors owing to the applicability of topics such as networks and synchronizations.
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1 Human Balance Control: Dead Zones, Intermittency, and Micro-Chaos (John Milton, Tamas Insperger, and Gabor Stepan) -- 2 Dynamical Robustness of Complex Biological Networks (Gouhei Tanaka, Kai Morino, and Kazuyuki Aihara) -- 3 Hardware-Oriented Neuron Modeling Approach by Reconfigurable Asynchronous Cellar Automaton (Takashi Matsubara and Hiroyuki Torikai) -- 4 Entrainment Limit of Weakly Forced Nonlinear Oscillators (Hisa-Aki Tanaka) -- 5 A Universal Mechanism of Determining the Robustness of Evolving Systems (Takashi Shimada) -- 6 Switching of Primarily Relied Information by Ants: A Combinatorial Study of Experiment and Modeling (Yusuke Ogihara, Osamu Yamanaka, Toshiaki Akino, Shunsuke Izumi, Akinori Awazu, and Hiraku Nishimori) -- 7 Chases and Escapes: From Singles to Groups (Atsushi Kamimura, Shigenori Matsumoto, and Toru Ohira).

This book presents the most recent mathematical approaches to the growing research area of networks, oscillations, and collective motions in the context of biological systems. Bringing together the results of multiple studies of different biological systems, this book sheds light on the relations among these research themes. Included in this book are the following topics: feedback systems with time delay and threshold of sensing (dead zone), robustness of biological networks from the point of view of dynamical systems, the hardware-oriented neuron modeling approach, a universal mechanism governing the entrainment limit under weak forcing, the robustness mechanism of open complex systems, situation-dependent switching of the cues primarily relied on by foraging ants, and group chase and escape. Research on different biological systems is presented together, not separated by specializations or by model systems. Therefore, the book provides diverse perspectives at the forefront of current mathematical research on biological systems, especially focused on networks, oscillations, and collective motions. This work is aimed at advanced undergraduate, graduate, and postdoctoral students, as well as scientists and engineers. It will also be of great use for professionals in industries and service sectors owing to the applicability of topics such as networks and synchronizations.

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