有势热方程的可观测性不等式

arXiv - MATH - Optimization and Control Pub Date : 2024-09-14 DOI:arxiv-2409.09476

Jiuyi Zhu, Jinping Zhuge

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引用次数: 0

摘要

本文主要研究具有时变 Lipschtiz 势的热方程的可观测性不等式。热方程的可观测性不等式断言，解的总能量由局部子域中具有可观测性常数的能量限定。对于有界可测的势 $V = V(x,t)$，卡勒曼估计所产生的可观测性常数的因子已知为$\exp(C\|V\|_\{infty}^{2/3})$（即使对于与时间无关的势）。在本文中，我们证明了对于利普西奇兹电势，这个系数可以被$\exp(C(\|\nabla V\|_{\infty}^{1/2} +\|\partial_tV\|_{\infty}^{1/3} ))$ 取代，这在某些典型情况下改进了之前的约束$exp(C\|V\|_{\infty}^{2/3})$。因此，有了这样一个 Lipschitz 势，我们就能在空可控性问题中获得定量正则控制。此外，对于一维热方程与某种时间无关的有界可测量势 $V = V(x)$，我们得到了最优可观测常数。

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Observability inequalities for heat equations with potentials

This paper is mainly concerned with the observability inequalities for heat equations with time-dependent Lipschtiz potentials. The observability inequality for heat equations asserts that the total energy of a solution is bounded above by the energy localized in a subdomain with an observability constant. For a bounded measurable potential $V = V(x,t)$, the factor in the observability constant arising from the Carleman estimate is best known to be $\exp(C\|V\|_{\infty}^{2/3})$ (even for time-independent potentials). In this paper, we show that, for Lipschtiz potentials, this factor can be replaced by $\exp(C(\|\nabla V\|_{\infty}^{1/2} +\|\partial_tV\|_{\infty}^{1/3} ))$, which improves the previous bound $\exp(C\|V\|_{\infty}^{2/3})$ in some typical scenarios. As a consequence, with such a Lipschitz potential, we obtain a quantitative regular control in a null controllability problem. In addition, for the one-dimensional heat equation with some time-independent bounded measurable potential $V = V(x)$, we obtain the optimal observability constant.

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arXiv - MATH - Optimization and Control

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