An Ecolab Perspective on the Bedau Evolutionary Statistics

arXiv: Adaptation and Self-Organizing Systems Pub Date : 2000-04-17 DOI:10.7551/mitpress/1432.003.0032

R. Standish

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引用次数: 8

Abstract

At Alife VI, Mark Bedau proposed some evolutionary statistics as a means of classifying different evolutionary systems. Ecolab, whilst not an artificial life system, is a model of an evolving ecology that has advantages of mathematical tractability and computational simplicity. The Bedau statistics are well defined for Ecolab, and this paper reports statistics measured for typical Ecolab runs, as a function of mutation rate. The behaviour ranges from class 1 (when mutation is switched off), through class 3 at intermediate mutation rates (corresponding to scale free dynamics) to class 2 at high mutation rates. The class 3/class 2 transition corresponds to an error threshold. Class 4 behaviour, which is typified by the Biosphere, is characterised by unbounded growth in diversity. It turns out that Ecolab is governed by an inverse relationship between diversity and connectivity, which also seems likely of the Biosphere. In Ecolab, the mutation operator is conservative with respect to connectivity, which explains the boundedness of diversity. The only way to get class 4 behaviour in Ecolab is to develop an evolutionary dynamics that reduces connectivity of time.

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Bedau进化统计的生态学视角

在Alife VI大会上，Mark Bedau提出了一些进化统计作为对不同进化系统进行分类的方法。Ecolab虽然不是一个人工生命系统，但它是一个进化生态的模型，具有数学可追溯性和计算简单性的优势。Ecolab的Bedau统计数据定义得很好，本文报告了典型Ecolab运行的统计数据，作为突变率的函数。行为范围从1类(当突变关闭时)，到3类(中等突变率)，再到2类(高突变率)。类3/类2转换对应于错误阈值。以生物圈为代表的第4类行为，其特征是多样性无界增长。事实证明，艺康是由多样性和连通性之间的反比关系控制的，这似乎也可能是生物圈。在Ecolab中，突变算子在连通性方面是保守的，这解释了多样性的有界性。在艺康，获得4级行为的唯一途径是开发一种减少连接时间的进化动力。

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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arXiv: Adaptation and Self-Organizing Systems

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