| Description |
1 online resource (xviii, 534 pages) : illustrations |
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data file rda |
| Bibliography |
Includes bibliographical references and index. |
| Contents |
Animal behaviors and animal communications. Animal models for computing and communications : past approaches and future challenges / Karen L. Bales and Carolyn D. Kitzmann ; Social behaviors of the California sea lion, bottlenose dolphin, and orca whale / Neil William Adams and Yang Xiao -- Bio-inspired computing and robots. Social insect societies for the optimization of dynamic NP-hard problems / Stephan A. Hartman [and others] ; Bio-inspired locomotion control of the hexapod robot Gregor III / Paolo Arena and Luca Patané ; BEECLUST : a swarm algorithm derived from honeybees : derivation of the algorithm, analysis by mathematical models, and implementation on a robot swarm / Thomas Schmickl and Heiko Hamann ; Self-organizing data and signal cellular systems / André Stauffer and Gianluca Tempesti ; Bio-inspired process control / Konrad Wojdan [and others] ; Multirobot search using bio-inspired cooperation and communication paradigms / Briana Wellman, Quinton Alexander, and Monica Anderson ; Abstractions for planning and control of robotic swarms / Calin Belta -- Ant-inspired allocation : top-down controller design for distributing a robot swarm among multiple tasks / Spring Berman, Ádám Halász, and M. Ani Hsieh ; Human peripheral nervous system controlling robots / Panagiotis K. Artemiadis and Kostas J. Kyriakopoulos -- Bio-inspired communications and networks. Adaptive social hierarchies : from nature to networks / Andrew Markham ; Chemical relaying protocols / Daniele Miorandi [and others] ; Attractor selection as self-adaptive control mechanism for communication networks / Kenji Leibnitz, Masayuki Murata, and Tetsuya Yomo ; Topological robustness of biological systems for information networks-modularity / S. Eum, S. Arakawa, and Masayuki Murata ; Biologically inspired dynamic spectrum access in cognitive radio networks / Baris Atakan and Ozgur B. Akan ; Weakly connected oscillatory networks for information processing / Michelle Bonnin, Fernando Corinto, and Marco Gilli ; Modeling the dynamics of cellular signaling for communication networks / Jian-Qin Liu and Kenji Leibnitz -- A biologically inspired QoS-aware architecture for scalable, adaptive, and survivable network systems / Paskorn Champrasert and Junichi Suzuki. |
| Summary |
In seeking new methods to cope with greater communication demands, researchers are finding inspiration in examples presented by nature. Considering a range of sources from insect to primate communication, leading researches present state-of-the-art approaches and novel technologies for developing bio-inspired models. They cover mathematical models and present experimental studies of bio-inspired computing and communications. They explore bio-inspired topology control and reconfiguration methods, as well as bio-inspired localization, synchronization, and mobility approaches. They also delve int. |
| Subject |
Natural computation.
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Computational intelligence.
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Computer networks.
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Computer Communication Networks |
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Calcul naturel. |
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Intelligence informatique. |
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Réseaux d'ordinateurs. |
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Natural computation |
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Computational intelligence |
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Computer networks |
| Added Author |
Xiao, Yang, 1966-
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| Other Form: |
Print version: Bio-inspired computing and networking. Boca Raton, Fla. : CRC Press, ©2011 9781420080322 (DLC) 2011282250 (OCoLC)226357439 |
| ISBN |
9781420080339 (ebook-pdf) |
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1420080334 (ebook-pdf) |
| Standard No. |
10.1201/b10781 doi |
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