Embryonics+immunotronics: a bio-inspired approach to fault tolerance

Author

Bradley, Daryl ; Ortega-Sanchez, Cesar ; Tyrrell, Andy

Author_Institution

Dept. of Electron., York Univ., UK

fYear

2000

fDate

2000

Firstpage

215

Lastpage

223

Abstract

Fault tolerance has always been a standard feature of electronic systems intended for long-term missions. However, the high complexity of modern systems makes the incorporation of fault tolerance a difficult task. Novel approaches to fault tolerance can be achieved by drawing inspiration from nature. Biological organisms possess characteristics such as healing and learning that can be applied to the design of fault-tolerant systems. This paper extends the work on bio-inspired fault-tolerant systems at the University of York. It is proposed that by combining embryonic arrays with an immune inspired network, it is possible to achieve systems with higher reliability

Keywords

biomolecular electronics; computational complexity; fault tolerant computing; learning (artificial intelligence); bio-inspired approach; biological organisms; electronic systems; embryonics; fault tolerance; healing; immune inspired network; immunotronics; learning; Biological systems; Embryo; Fault tolerance; Humans; Immune system; Job production systems; Organisms; Read only memory; Satellites; Space technology;

fLanguage

English

Publisher

ieee

Conference_Titel

Evolvable Hardware, 2000. Proceedings. The Second NASA/DoD Workshop on

Conference_Location

Palo Alto, CA

Print_ISBN

0-7695-0762-X

Type

conf

DOI

10.1109/EH.2000.869359

Filename

869359