紧网络上双线性热方程特征解的精确可控性

P. Cannarsa, Alessandro Duca, Cristina Urbani
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引用次数: 5

摘要

由于网络上的偏微分方程在量子力学(Schrödinger型方程)或柔性结构分析(波动型方程)中的应用,在过去几十年中得到了广泛的研究。然而,尽管神经生物学等生命科学对扩散模型的需求日益增加,但很少有结果可用。本文分析了在单输入双线性控制作用下紧致网络上热方程的可控性。由于[F.]Alabau-Boussouira, P. Cannarsa, C. Urbani,基于双线性控制的抛物型演化方程特征解的精确可控性,[j] . vol . 11: 1811.08806,得到了非控制问题特征解的精确可控性结果。在图上拉普拉斯特征值的非均匀间隙条件下,构造合适的双正交族是关键的一步。应用星图和蝌蚪图包括在内。
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Exact controllability to eigensolutions of the bilinear heat equation on compact networks
Partial differential equations on networks have been widely investigated in the last decades in view of their application to quantum mechanics (Schrödinger type equations) or to the analysis of flexible structures (wave type equations). Nevertheless, very few results are available for diffusive models despite an increasing demand arising from life sciences such as neurobiology. This paper analyzes the controllability properties of the heat equation on a compact network under the action of a single input bilinear control.By adapting a recent method due to [F. Alabau-Boussouira, P. Cannarsa, C. Urbani, Exact controllability to eigensolutions for evolution equations of parabolic type via bilinear control, arXiv: 1811.08806], an exact controllability result to the eigensolutions of the uncontrolled problem is obtained in this work. A crucial step has been the construction of a suitable biorthogonal family under a non-uniform gap condition of the eigenvalues of the Laplacian on a graph. Application to star graphs and tadpole graphs are included.
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