Specialized algorithm for identification of stable linear systems using Lagrangian relaxation

2016 American Control Conference (ACC) Pub Date : 2016-07-06 DOI:10.1109/ACC.2016.7525034
Jack Umenberger, I. Manchester
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引用次数: 4

Abstract

Recently Lagrangian relaxation has been used to generate convex approximations of the challenging simulation error minimization problem arising in system identification. In this paper, we present a specialized algorithm to optimize the convex bounds generated by Lagrangian relaxation, applicable to linear state-space models. The algorithm demonstrates superior scalability over general-purpose semidefinite programming solvers. In addition, we show empirically that Lagrangian relaxation is more resilient to a biasing effect commonly observed in other identification methods that guarantee model stability.
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利用拉格朗日松弛辨识稳定线性系统的专门算法
近年来,拉格朗日松弛法被用于求解系统辨识中具有挑战性的仿真误差最小化问题的凸逼近。在本文中,我们提出了一种专门的算法来优化由拉格朗日松弛产生的凸界,适用于线性状态空间模型。与一般半定规划求解器相比,该算法具有优越的可扩展性。此外,我们的经验表明,拉格朗日弛豫对其他保证模型稳定性的识别方法中常见的偏倚效应更有弹性。
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2016 American Control Conference (ACC)
2016 American Control Conference (ACC)
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