Title :
Biologically-inspired concepts for self-management of complexity
Author :
Sterritt, Roy ; Hinchey, Michael G.
Author_Institution :
Ulster Univ., Jordanstown
Abstract :
Inherent complexity in large-scale applications may be impossible to eliminate or even ameliorate despite a number of promising advances. In such cases, the complexity must be tolerated and managed. Such management may be beyond the abilities of humans, or require such overhead as to make management by humans unrealistic. A number of initiatives inspired by concepts in biology have arisen for self-management of complex systems. We present some ideas and techniques we have been experimenting with, inspired by lesser-known concepts in biology that show promise in protecting complex systems and represent a step towards self-management of complexity
Keywords :
biocomputing; computational complexity; large-scale systems; self-adjusting systems; biologically-inspired concepts; complex systems; inherent complexity; self-management; Biological information theory; Biology computing; Blood; Control systems; Humans; NASA; Pervasive computing; Protection; Space exploration; Systems biology;
Conference_Titel :
Engineering of Complex Computer Systems, 2006. ICECCS 2006. 11th IEEE International Conference on
Conference_Location :
Stanford, CA
Print_ISBN :
0-7695-2530-X
DOI :
10.1109/ICECCS.2006.1690365
