Robust parameter identification using parallel global optimization for a batch nonlinear enzyme-catalytic time-delayed process presenting metabolic discontinuities

Jinlong Yuan; Yuduo Zhang; Jianxiong Ye; Jun Xie; Kok Lay Teo; Xi Zhu; Enmin Feng; Hongchao Yin; Zhilong Xiu

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Robust parameter identification using parallel global optimization for a batch nonlinear enzyme-catalytic time-delayed process presenting metabolic discontinuities

机译：使用并行全局优化的批参数非线性酶催化时滞过程表现出代谢不连续性的鲁棒参数识别

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In this paper, a nonlinear enzyme-catalytic time-delayed switched dynamical system is considered to describe batch culture of glycerol bioconversion to 1,3-propanediol induced by Klebsiella pneumoniae. This system can not only predict the exponential growth phase but also the lag and the stationary growth phases of batch culture since it contains two switching times for representing the starting moment of lag growth phase and the time when the cell specified growth rate reaches the maximum. The biological robustness is expressed in terms of the expectation and variance of the relative deviation. Our aim is to identify the switching times. To this end, a robust parameter identification problem is formulated, where the switching times are decision variables to be chosen such that the biological robustness measure is optimized. This problem, which is governed by the nonlinear system, is subject to a quality constraint and continuous state inequality constraints. Using a hybrid time-scaling transformation to parameterize the switching times into new parameters, an equivalently robust parameter identification problem is investigated. The continuous state inequality constraints are approximated by a conventional inequality constraint, yielding a sequence of approximate robust parameter identification subproblems. The convergence analysis of this approximation is also investigated. Owing to the highly complex nature of these subproblems, a parallel algorithm, based on simulated annealing, is proposed to solve these subproblems. From an extensive simulation study, it is observed that the obtained optimal switching times are satisfactory.

机译：在本文中，考虑使用非线性酶催化时滞切换动力系统来描述由肺炎克雷伯菌引起的甘油生物转化为1,3-丙二醇的分批培养。该系统不仅可以预测分批培养的指数生长期，而且可以预测滞后和静止生长期，因为它包含两个切换时间来代表滞后生长期的开始时刻和细胞指定生长速率达到最大值的时间。生物学鲁棒性用相对偏差的期望值和方差表示。我们的目的是确定切换时间。为此，提出了鲁棒性参数识别问题，其中切换时间是要选择的决策变量，从而优化了生物学鲁棒性度量。由非线性系统控制的这个问题受到质量约束和连续状态不等式约束。使用混合时标变换将切换时间参数化为新参数，研究了等效鲁棒参数识别问题。连续状态不等式约束可通过常规不等式约束来近似，从而产生一系列近似的鲁棒参数识别子问题。还研究了这种近似的收敛性分析。由于这些子问题的高度复杂性，提出了一种基于模拟退火的并行算法来解决这些子问题。从广泛的仿真研究可以看出，获得的最佳开关时间是令人满意的。

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来源
《Applied Mathematical Modelling》 |2017年第6期|554-571|共18页
作者
Jinlong Yuan; Yuduo Zhang; Jianxiong Ye; Jun Xie; Kok Lay Teo; Xi Zhu; Enmin Feng; Hongchao Yin; Zhilong Xiu;
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作者单位

School of Energy and Power Engineering, Dalian University of Technology, Dalian 116024, Liaoning, PR China,School of Mathematical Sciences, Dalian University of Technology, Dalian 116024, Liaoning, PR China,School of Life Science and Biotechnology, Dalian University of Technology, Dalian 116024, Liaoning, PR China;

College of Science, Dalian Nationalities University, Dalian 116600, Liaoning PR China;

School of Mathematics and Computer Science, Fujian Normal University, Fuzhou 350007, Fujian, PR China;

Teaching and Research Office of Mathematics, Department of Basics, PLA Dalian Naval Academy, Dalian 116018, Liaoning PR China;

School of Mathematics and Statistics, Changsha University of Science and Technology, Changsha 410114, Hunan, PR China,Department of Mathematics and Statistics, Curtin University, Perth 6845, Western Australia, Australia;

School of Management, Tianjin University of Technology, Tianjian 300384, PR China;

School of Mathematical Sciences, Dalian University of Technology, Dalian 116024, Liaoning, PR China;

School of Energy and Power Engineering, Dalian University of Technology, Dalian 116024, Liaoning, PR China;

School of Life Science and Biotechnology, Dalian University of Technology, Dalian 116024, Liaoning, PR China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
Nonlinear time-delayed switched system; Biological robustness; Parallel optimization; Batch culture; Convergence analysis;

机译：非线性时滞切换系统;生物鲁棒性;并行优化批量培养;收敛分析;

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专利

1. Modelling and parameter identification of a nonlinear enzyme-catalytic time-delayed switched system and its parallel optimization [J] . Jinlong Yuan, Lei Wang, Jun Xie, Applied Mathematical Modelling . 2016,第19a20期

机译：非线性酶催化时滞切换系统的建模，参数辨识及其并行优化
2. Robust optimal control problem with multiple characteristic time points in the objective for a batch nonlinear time-varying process using parallel global optimization [J] . Jinlong Yuan, Jun Xie, Ming Huang, Optimization and Engineering . 2020,第3期

机译：使用并行全局优化的批处理非线性时变过程的多个特征时间点具有多个特征时间点的鲁棒优化控制问题
3. Robustness analysis and identification for an enzyme-catalytic complex metabolic network in batch culture [J] . Yang Qi, Chen Qunbin, Niu Teng, Bioprocess and Biosystems Engineering . 2021,第7期

机译：分批培养中酶催化复合代谢网络的鲁棒性分析及鉴定
4. Sensitivity Analysis and Parameter Identification for a Nonlinear Time-delayed Dynamical System in Microbial Fed-batch Fermentation Process [C] . Chongyang Liu, Enmin Feng The 8th international conference on optimization: Techniques and Applications . 2010

机译：微生物补料分批发酵过程中非线性时滞动力系统的灵敏度分析与参数辨识
5. Robust run-to-run (batch-to-batch) optimization and control for semiconductor manufacturing processes [D] . Adivikolanu, Sudhakar 1999

机译：半导体制造过程的鲁棒运行（批到批）优化和控制
6. Identification of metabolic system parameters using global optimization methods [O] . Pradeep K Polisetty, Eberhard O Voit, Edward P Gatzke 2006

机译：使用全局优化方法识别代谢系统参数
7. Robust Analysis and Parameters Identification of the Nonlinear Multistage Dynamical System in Batch Fermentation of Glycerol [O] . Xu Zhang, Xinying Wang, Enmin Feng, 2014

机译：甘油分批发酵中非线性多级动力系统的鲁棒分析与参数鉴定

Robust parameter identification using parallel global optimization for a batch nonlinear enzyme-catalytic time-delayed process presenting metabolic discontinuities

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