基于 UKF 的非对称输入约束不确定动态系统的最优跟踪控制

IF 9.4 1区 计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Cybernetics Pub Date : 2024-10-14 DOI:10.1109/tcyb.2024.3471987
Ning Liu,Kun Zhang,Xiangpeng Xie,Dong Yue
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引用次数: 0

摘要

为了提高系统在不确定性情况下的鲁棒性,并实现控制策略的自适应优化,我们开发了一种基于无特征卡尔曼滤波器(UKF)的新型算法。该算法解决了具有不确定性和非对称输入约束的非线性离散时间(DT)系统的有限视距最优跟踪控制问题(FHOTCP)。在考虑非对称控制约束的情况下,构建了一个增强系统。增量问题通过 DT Hamilton-Jacobi-Bellman 方程 (DTHJBE) 解决。通过分析成本函数和控制法则的收敛性,提出了基于 UKF 的迭代自适应动态编程(ADP)算法。该算法逼近 DTHJBE 的解,确保成本函数在一定范围内收敛到最优值。为了执行基于 UKF 的迭代 ADP 算法,建立了行动者-估计者-批判者框架,其中估计者是指通过应用 UKF 进行系统状态估计。最后,通过仿真实例展示了所提方法的性能。
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UKF-Based Optimal Tracking Control for Uncertain Dynamic Systems With Asymmetric Input Constraints.
To enhance system robustness in the face of uncertainty and achieve adaptive optimization of control strategies, a novel algorithm based on the unscented Kalman filter (UKF) is developed. This algorithm addresses the finite-horizon optimal tracking control problem (FHOTCP) for nonlinear discrete-time (DT) systems with uncertainty and asymmetric input constraints. An augmented system is constructed with asymmetric control constraints being considered. The augmented problem is addressed with a DT Hamilton-Jacobi-Bellman equation (DTHJBE). By analyzing convergence with regard to the cost function and control law, the UKF-based iterative adaptive dynamic programming (ADP) algorithm is proposed. This algorithm approximates the solution of the DTHJBE, ensuring that the cost function converges to its optimal value within a bounded range. To execute the UKF-based iterative ADP algorithm, the actor-estimator-critic framework is built, in which the estimator refers to system state estimation through the application of UKF. Ultimately, simulation examples are presented to show the performance of the proposed method.
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来源期刊
IEEE Transactions on Cybernetics
IEEE Transactions on Cybernetics COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-COMPUTER SCIENCE, CYBERNETICS
CiteScore
25.40
自引率
11.00%
发文量
1869
期刊介绍: The scope of the IEEE Transactions on Cybernetics includes computational approaches to the field of cybernetics. Specifically, the transactions welcomes papers on communication and control across machines or machine, human, and organizations. The scope includes such areas as computational intelligence, computer vision, neural networks, genetic algorithms, machine learning, fuzzy systems, cognitive systems, decision making, and robotics, to the extent that they contribute to the theme of cybernetics or demonstrate an application of cybernetics principles.
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