Open Access
Spacial Representation for Artificial Chemistry Based on Small-World Networks
Jordan Pollack,Mark A. Bedau,Phil Husbands,Richard A. Watson,Takashi Ikegami +4 more
- 01 Jan 2004
- pp 507-513
7
About: The article was published on 01 Jan 2004. and is currently open access. The article focuses on the topics: Artificial chemistry & Representation (systemics).
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Making Membranes in Artificial Chemistries
Tim J. Hutton
- 01 Jan 2004
TL;DR: This paper presents a novel implementation based on a two-dimensional lattice that has several desirable features and is computationally cheap and also observes that various properties of natural membranes are lacking in some of the systems.
7
Mathematical folding of node chains in a molecular network.
TL;DR: Under the framework of network artificial chemistry (NAC), a method to construct a phenotypic machine from genotypic information is proposed and two examples of control-flow clusters, splitase and replicase, are presented and their functionality is demonstrated.
7
An Approach Toward Emulating Molecular Interaction with a Graph
TL;DR: In this article, the authors formulated the network energy constraint and rewired the NAC graph to minimize the required energy, and compared it with a hard-sphere random walk simulation.
6
Artificial Chemistry and Molecular Network
Hideaki Suzuki
- 01 Jan 2011
TL;DR: This chapter focuses on artificial chemistry, a research approach for constructing life-like systems in artificial environments, and presents its fundamental concepts and system design requirements, and introduces the concept of a molecular network, which emulates the spatial relationship of the molecules.
4
A network cell with molecular agents that divides from centrosome signals.
TL;DR: A novel model of network artificial chemistry in which molecular agents with assembler programs move through the network is presented, and it is demonstrated that the revised NAC is able to emulate the organization of a pseudo-lattice structure between hydrophilic nodes.
4