On the Path Towards Autonomic Computing: Combining Swarm Intelligence and Excitable Media Models

The present article presents an approach towards the emergent field of autonomic computing by combining swarm intelligence and excitable media. It is believed that the combination of these scientific fields is capable of generating two important self-* properties required by autonomic systems: self-organization and self-configuration. An agent-based simulation is used to generate swarms, which are then thought as computing tasks; the excitable media is, on the other hand, implemented as a cellular automaton, which is what excites swarms to show autonomic computing features. The results show that combining swarm intelligence and excitable media is a feasible way towards autonomic computing and its desired characteristics, reducing systems' complex design and implementation.

[1]  Vladimir Zykov Excitable media , 2008, Scholarpedia.

[2]  Fabien Michel Introduction to Turtlekit: A Platform for Building Logo Based Multi-Agent Simulations with Madkit , 2001 .

[3]  Alexander S. Mikhailov,et al.  Foundations of Synergetics II , 1990 .

[4]  Walter E. Garrey THE NATURE OF FIBRILLARY CONTRACTION OF THE HEART.—ITS RELATION TO TISSUE MASS AND FORM , 1914 .

[5]  A ROSENBLUETH,et al.  The mathematical formulation of the problem of conduction of impulses in a network of connected excitable elements, specifically in cardiac muscle. , 1946, Archivos del Instituto de Cardiologia de Mexico.

[6]  Thomas. Lewis,et al.  The Mechanism and Graphic Registration of the Heart Beat , 2010 .

[7]  W. Ebeling,et al.  Foundations of Synergetics I. Distributed Active Systems , 1992 .

[8]  David L. Cohn,et al.  Autonomic Computing , 2003, ISADS.

[9]  George John Romanes III. Preliminary observations on the locomotor system of medusæ , 1876, Proceedings of the Royal Society of London.

[10]  Alexander S. Mikhailov,et al.  From Cells to Societies: Models of Complex Coherent Action. Authorized translation from the English edition published by Springer-Verlag , 2006 .

[11]  Andrew Wuensche,et al.  Discrete dynamics lab: tools for investigating cellular automata and discrete dynamical networks , 2003 .

[12]  Rob Saunders,et al.  Agent-Based Modelling of Stem Cell Self-organisation in a Niche , 2004, Engineering Self-Organising Systems.

[13]  Barbara Webb,et al.  Swarm Intelligence: From Natural to Artificial Systems , 2002, Connect. Sci..

[14]  G. R. Mines On dynamic equilibrium in the heart , 1913, The Journal of physiology.

[15]  A. E. Eiben Evolutionary Computing and Autonomic Computing: Shared Problems, Shared Solutions? , 2005, Self-star Properties in Complex Information Systems.

[16]  Franco Zambonelli,et al.  Self-Organizing Spatial Shapes in Mobile Particles: The TOTA Approach , 2004, Engineering Self-Organising Systems.

[17]  Salim Hariri,et al.  Autonomic Computing : Concepts, Infrastructure, and Applications , 2006 .

[18]  Hermann Haken,et al.  On the foundations of synergetics , 1996 .