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. Hartmann, Pedro C. Pinto, Thomas A. Runkler, And João M.C. Sousa 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 Signals Cellular Systems; André Stauffer and Gianluca Tempesti Bio-Inspired Process Control; Konrad Wojdan, Konrad Swirski, Michalwarchol, Grzegorz Jarmoszewicz, And Tomasz Chomiak 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, Iacopo Carreras, Francesco De Pellegrini, Imrich Chlamtac, Vilmos Simon, and Endre Varga 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; Michele 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 amp;lt;EM>André Stauffer and Gianluca Tempesti Bio-Inspired Process Control; Konrad Wojdan, Konrad Swirski, Michalwarchol, Grzegorz Jarmoszewicz, And Tomasz Chomiak 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, Iacopo Carreras, Francesco De Pellegrini, Imrich Chlamtac, Vilmos Simon, and Endre Varga 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; Michele 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 ; Daniele Miorandi, Iacopo Carreras, Francesco De Pellegrini, Imrich Chlamtac, Vilmos Simon, and Endre Varga 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; Michele 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 Suzukiand Junichi Suzuki.