DigiHive: Artificial Chemistry Environment for Modeling of Self-Organization Phenomena

IF 1.6 4区计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Artificial Life Pub Date : 2023-03-01 DOI:10.1162/artl_a_00398

Rafał Sienkiewicz;Wojciech Jędruch

引用次数: 0

Abstract

The article presents the DigiHive system, an artificial chemistry simulation environment, and the results of preliminary simulation experiments leading toward building a self-replicating system resembling a living cell. The two-dimensional environment is populated by particles that can bond together and form complexes of particles. Some complexes can recognize and change the structures of surrounding complexes, where the functions they perform are encoded in their structure in the form of Prolog-like language expressions. After introducing the DigiHive environment, we present the results of simulations of two fundamental parts of a self-replicating system, the work of a universal constructor and a copying machine, and the growth and division of a cell-like wall. At the end of the article, the limitations and arising difficulties of modeling in the DigiHive environment are presented, along with a discussion of possible future experiments and applications of this type of modeling.

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模拟自组织现象的人工化学环境

本文介绍了DigiHive系统，一个人工化学模拟环境，以及初步模拟实验的结果，这些实验导致了建立一个类似于活细胞的自我复制系统。二维环境中充满了可以结合在一起并形成粒子复合物的粒子。一些复合物可以识别和改变周围复合物的结构，它们所执行的功能以类似prolog的语言表达式的形式编码在它们的结构中。在介绍了DigiHive环境之后，我们展示了一个自我复制系统的两个基本部分的模拟结果，一个通用构造器和一个复制机器的工作，以及一个细胞样壁的生长和分裂。在文章的最后，介绍了在DigiHive环境中建模的限制和出现的困难，并讨论了这种建模的未来可能的实验和应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Artificial Life 工程技术-计算机：理论方法

CiteScore

4.70

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： Artificial Life, launched in the fall of 1993, has become the unifying forum for the exchange of scientific information on the study of artificial systems that exhibit the behavioral characteristics of natural living systems, through the synthesis or simulation using computational (software), robotic (hardware), and/or physicochemical (wetware) means. Each issue features cutting-edge research on artificial life that advances the state-of-the-art of our knowledge about various aspects of living systems such as: Artificial chemistry and the origins of life Self-assembly, growth, and development Self-replication and self-repair Systems and synthetic biology Perception, cognition, and behavior Embodiment and enactivism Collective behaviors of swarms Evolutionary and ecological dynamics Open-endedness and creativity Social organization and cultural evolution Societal and technological implications Philosophy and aesthetics Applications to biology, medicine, business, education, or entertainment.