Developing an emergent theoretical framework for artificial pseudo-gene communication pathway in DNA computing

Author

Shamsudin, A.F. ; Suhaimi, Mohd Adam ; Huweidi, M. ; Seth, Sachin ; Aishah, N. ; AlyaKhadijah, A.F. ; Hidayah, R. ; Noorbatcha, I.A.

Author_Institution

Fac. of Manage. & Inf. Technol., Islamic Univ. Coll. Sultan Azlan Shah, Kuala Kangsar, Malaysia

fYear

2012

fDate

1-2 Dec. 2012

Firstpage

223

Lastpage

227

Abstract

The extended information theory of Shannon with Feynman used in natural DNA computing is proposed to be used for artificial pseudo-gene computing. The theory predicts the performance in terms of information decays of the pseudo-gene communication system of information encoding, transmission and decoding similar to natural molecular reactions. An emergent theoretical framework for artificial pseudo-genes using cooperative multi-agents with gene motif binary switching algorithm is developed. The results indicated differences in information decays between artificial and natural DNA computing systems. Further development of the gene motif binary switch algorithm may achieve convergence between the artificial and natural systems.

Keywords

biocomputing; decoding; encoding; genetics; multi-agent systems; Shannon-Feynman information theory; artificial DNA computing systems; artificial pseudogene communication pathway; cooperative multiagents; gene motif binary switch algorithm; information decoding; information encoding; information transmission; natural DNA computing systems; natural molecular reactions; pseudogene communication system; theoretical framework; Algorithm design and analysis; Computer architecture; DNA; DNA computing; Information processing; Information theory; Switches;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Computer Science and Information Systems (ICACSIS), 2012 International Conference on

Conference_Location

Depok

Print_ISBN

978-1-4673-3026-8

Type

conf

Filename

6468727