Title :
Mechanisms underlying the evolution of robust nonlinear control in biology
Author_Institution :
Sci. & Technol. Res. Centre, Hertfordshire Univ., Hatfield, UK
Abstract :
A number of papers have highlighted remarkably high levels of robustness in the biochemical processes that control cellular function. This robustness is achieved in spite of the `inexact´ and highly stochastic nature of molecular interactions. Averaging, thresholding, resynchronization, and feedback are used extensively in biological systems to achieve robustness. How did incremental evolutionary changes lead to such sophisticated control algorithms? Can these principles be abstracted and used to artificially evolve robust nonlinear control in engineered systems? We present an analysis of the mechanisms underlying biological evolution and offer a model of molecular evolution as incremental model building and optimization
Keywords :
biocontrol; cellular biophysics; evolution (biological); molecular biophysics; nonlinear control systems; robust control; averaging; biochemical processes; biology; cellular function control; feedback; incremental evolutionary changes; incremental model building; inexact stochastic molecular interactions; molecular evolution; optimization; resynchronization; robust nonlinear control; robustness; thresholding; Biological system modeling; Biological systems; Control systems; Evolution (biology); Feedback; Nonlinear control systems; Process control; Robust control; Robustness; Stochastic processes;
Conference_Titel :
Intelligent Control/Intelligent Systems and Semiotics, 1999. Proceedings of the 1999 IEEE International Symposium on
Conference_Location :
Cambridge, MA
Print_ISBN :
0-7803-5665-9
DOI :
10.1109/ISIC.1999.796695
