将可识别性结果从连续空间系统扩展到离散空间系统

IF 2.4 Q2 AUTOMATION & CONTROL SYSTEMS

IEEE Control Systems Letters Pub Date : 2024-06-18 DOI:10.1109/LCSYS.2024.3416238

Anuththara Sarathchandra;Azadeh Aghaeeyan;Pouria Ramazi

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引用次数: 0

摘要

研究人员建立模型来解释未知数。这些模型通常涉及参数，这些参数捕捉有形的数量，需要对其进行估算。参数可识别性研究的是在无误输出、输入和已建立模型方程的情况下未知参数的可恢复性。对于定义在连续空间的动力系统，存在不同的可识别性概念和测试方法。然而，对于变量和参数定义在离散空间的离散空间系统，人们却很少关注其可识别性。我们建立了离散空间系统的可识别性框架，并强调这并不是连续空间框架的直接扩展。与连续情况不同，局部可识别性概念对如何定义 "邻域 "很敏感。此外，在连续空间中证明有用的代数可识别性结果，在离散形式中就不那么有用了，因为可微分性的概念消失了。

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Extending Identifiability Results From Continuous to Discrete-Space Systems

Researchers develop models to explain the unknowns. These models typically involve parameters that capture tangible quantities, the estimation of which is desired. Parameter identifiability investigates the recoverability of the unknown parameters given the error-free outputs, inputs, and the developed equations of the model. Different notions of and methods to test identifiability exist for dynamical systems defined in the continuous space. Yet little attention was paid to the identifiability of discrete space systems, where variables and parameters are defined in a discrete space. We develop the identifiability framework for discrete space systems and highlight that this is not an immediate extension of the continuous space framework. Unlike the continuous case, local identifiability concepts are sensitive to how a “neighborhood” is defined. Moreover, results on algebraic identifiability that proved useful in the continuous space are less so in their discrete form as the notion of differentiability disappears.

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来源期刊

IEEE Control Systems Letters Mathematics-Control and Optimization

CiteScore

4.40

自引率

13.30%

发文量

471