Optimal design of sequential excitation for identification of multi-variable systems

Q3 Engineering IFAC-PapersOnLine Pub Date : 2024-01-01 DOI:10.1016/j.ifacol.2024.08.371

Michael Lundh , Sudhakar Munusamy , Alf J. Isaksson , Håkan Hjalmarsson , Vivek S. Pinnamaraju

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Abstract

While designing excitation signals for identification of industrial processes, it is important to obtain desired model accuracies, reduce the experimental time and limit the output amplitudes within the specified bounds to avoid serious disruptions of the nominal process operation. In this work, we design a multi-frequency multi-amplitude square wave (multi-square) input based on a nominal model by minimizing the experiment length and placing constraints on the model accuracy (in the frequency domain) and the output amplitudes. A separate design is carried out for each input where the resulting optimization problem has the same structure as a semi-definite program but with the decision variables restricted to integers corresponding to the number of half-periods of each square-wave. For processes with multiple inputs, the corresponding designs are carried out sequentially. The violations in the output constraints either due to model-plant mismatch or unmeasured disturbances should be mitigated by appropriate closed loop control actions. The efficacy of the proposed design is shown by means of a simulation case study.

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识别多变量系统的顺序激励优化设计

在设计用于工业过程识别的激励信号时，重要的是要获得所需的模型精度、缩短实验时间并将输出振幅限制在指定范围内，以避免严重干扰标称过程的运行。在这项工作中，我们根据标称模型设计了多频率多振幅方波（多方波）输入，最大限度地缩短了实验时间，并对模型精度（频域）和输出振幅施加了限制。针对每种输入进行单独设计，由此产生的优化问题结构与半定式程序相同，但决策变量仅限于与每种方波的半周期数相对应的整数。对于有多个输入的过程，相应的设计按顺序进行。由于模型与设备不匹配或未测量到的干扰而导致的输出约束条件的违反，应通过适当的闭环控制措施加以缓解。通过一个模拟案例研究，展示了拟议设计的有效性。

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来源期刊

IFAC-PapersOnLine Engineering-Control and Systems Engineering

CiteScore

1.70

自引率

0.00%

发文量

1122

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