Estimating parameters of S-systems by an auxiliary function guided coordinate descent method

Li-Zhi Liu, Fang-Xiang Wu, Wen-Jun Zhang
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引用次数: 8

Abstract

The S-system, a set of nonlinear ordinary differential equations and derived from the generalized mass action law, is an effective model to describe various biological systems. Parameters in S-systems have significant biological meanings, yet difficult to be estimated because of the nonlinearity and complexity of the model. Given time series biological data, its parameter estimation turns out to be a nonlinear optimization problem. A novel method, auxiliary function guided coordinate descent, is proposed in this paper to solve the optimization problem by cyclically optimizing every parameter. In each iteration, only one parameter value is updated and it proves that the objective function keeps nonincreasing during the iterations. The updating rules in each iteration is simple and efficient. Based on this idea, two algorithms are developed to estimate the S-systems for two different constraint situations. The performances of algorithms are studied in several simulation examples. The results demonstrate the effectiveness of the proposed method.
用辅助函数引导坐标下降法估计s系统参数
s系统是由广义质量作用定律导出的一组非线性常微分方程,是描述各种生物系统的有效模型。s系统的参数具有重要的生物学意义,但由于模型的非线性和复杂性而难以估计。给定时间序列生物数据,其参数估计是一个非线性优化问题。本文提出了一种新的方法——辅助函数引导坐标下降法,通过循环优化各参数来解决优化问题。每次迭代只更新一个参数值,证明了目标函数在迭代过程中保持不变。每次迭代的更新规则简单、高效。基于这一思想,提出了两种算法来估计两种不同约束情况下的s系统。通过几个仿真实例研究了算法的性能。实验结果表明了该方法的有效性。
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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