一类微分变分-半变分不等式的适定性、最优控制与灵敏度分析

Well-Posedness, Optimal Control, and Sensitivity Analysis for a Class of Differential Variational-Hemivariational Inequalities

SIAM Journal on Optimization · 2021
被引 114 · 同刊同年前 1%
ABS 3

中文导读

研究了一类耦合椭圆型变分-半变分不等式与非线性发展包含的微分变分-半变分不等式系统,证明了其解的存在性、紧性、连续性和收敛性,并给出了最优控制问题的解存在性及扰动问题的灵敏度分析。

Abstract

<p>The objective of the paper is to investigate a dynamical system called a differential variational-hemivariational inequality (DVHVI) which couples an abstract variational-hemivariational inequality of elliptic type and a nonlinear evolution inclusion problem in a Banach space. Under appropriate assumptions, the nonemptiness and compactness of the solution set for DVHVI are established<br>by using the Fan–Knaster–Kuratowski–Mazurkiewicz principle, the Minty approach, and the methods of nonsmooth analysis. Then, we explore properties of solution mapping for DVHVI which involve the relative compactness, continuity, and convergence in the Kuratowski sense. Employing these properties, we prove existence of a solution to the optimal control problem driven by a DVHVI. Next, well-posedness results for DVHVI are obtained, including the existence, uniqueness, and stability of the solution. Furthermore, we study sensitivity of a perturbed problem with multiparameters corresponding to DVHVI. Finally, a comprehensive parabolic-elliptic system with obstacle effect is considered as an illustrative application</p>

数学最优控制变分不等式灵敏度分析动力系统