Abstract: In this paper we propose the use of Networks of Bio-inspired Processors (NBP) to model some biological phenomena within a computational framework. In particular, we propose the use of an extension of NBP named Network Evolutionary Processors Transducers to simulate chemical transformations of substances. Within a biological process, chemical transformations of substances are basic operations in the change of the state of the cell. Previously, it has been proved that NBP are computationally complete, that is, they are able to solve NP complete problems in linear time, using massively parallel computations. In addition, we propose a multilayer architecture that will allow us to design models of biological processes related to cellular communication as well as their implications in the metabolic pathways. Subsequently, these models can be applied not only to biological-cellular instances but, possibly, also to configure instances of interactive processes in many other fields like population interactions, ecological trophic networks, industrial ecosystems, etc.

Keywords: Networks of biologically-inspired processors, Bioinspired Architectures, Computational Models, Natural Computing.

ACM Classification Keywords: F.1.1 Models of Computation - Unbounded-action devices.

Link:

AN ARCHITECTURE FOR REPRESENTING BIOLOGICAL PROCESSES BASED ON NETWORKS OF BIO-INSPIRED PROCESSORS

Sandra Gómez Canaval, Fernando Arroyo and José Ramón Sánchez-Couso?

http://www.foibg.com/ijita/vol20/ijita20-03-p03.pdf