%0 Journal Article
%T Eigen 模型中误差阈展宽机制的研究
%A 田中修
%A 李多芳
%A 曹天光
%A 耿金鹏
%A 展永
%J 河北工业大学学报
%D 2017
%R 10.14081/j.cnki.hgdxb.2017.02.006
%X 物种演化本质上是生物群体与他们周围环境之间相互作用的一个随机过程. 即演化模型中的一些物理参量是受外界环境涨落的影响.本工作中，是把模型中的适应度和突变率这2 个物理参量同时处理为高斯分布随机变量，当二者同步耦合随机化时，转变区域的宽度与适应度和突变率的涨落强度分别呈线性和指数型关系；二者在非同步耦合随机化的情况下，转变区域的宽度与变量涨落强度间的关系与之前相一致. 此时，不同的涨落强度下，变量与转变区域的宽度呈现出不同的趋势.当适应度和突变率二者同时随机化时，突变率随机化占据了主导地位，这就需要将突变概率矩阵中矩阵元作进一步的分析，进而研究误差阈的展宽机制.</br>Species evolution is essentially a random process of interaction between biological populations and their environments. As a result, some physical parameters in evolution modles are subject to statistical fluctuations. In this work, two important parameters in the Eigen model. The fitness and mutation rate are treated as Gaussian distributed random variables simultaneously. When the two are coupled by randomization, the width of the crossover region is linearly and exponentially related to the fluctuation of the fitness and the mutation rate. In the case of the random coupling, the relationship between the width of the crossover region and the fluctuating strength of the variable is consistent with the previous one. Atthe same time, the variable and the width of the crossover region show different trends under different fluctuation strengths.When both fitness and mutation rate are randomized, the randomization of mutation rate dominates, which requires further analysis of the matrix elements in the mutation probability matrix, and then studies the extension mechanism of the error threshold.
%K 突变率
%K 高斯分布随机变量
%K 耦合随机化
%K 突变概率矩阵
%K 误差阈&lt
%K /br&gt
%K （School of Sciences
%K Hebei University of Technology
%K Tianjin 300401
%K China）
%U http://zrxuebao.hebut.edu.cn//oa/darticle.aspx?type=view&id=201702006