通过交替次梯度迭代实现线性宏模型的凸无源性

2012 IEEE 21st Conference on Electrical Performance of Electronic Packaging and Systems Pub Date : 2012-10-01 DOI:10.1109/EPEPS.2012.6457875

A. Chinea, S. Grivet-Talocia, G. Calafiore

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引用次数: 1

摘要

本文介绍了一种新的散射形式线性集总宏观模型的无源增强算法。与大多数最先进的被动执行方法一样，我们从通过向量拟合过程获得的初始非被动宏模型开始，并对其参数进行扰动使其成为被动模型。该方案基于无源约束和目标函数的凸表达式以保证精度，从而允许对唯一最优无源宏观模型的收敛进行形式化证明。这是将新方案与大多数最先进的方法区分开来的一个显著特征，这些方法要么不能保证收敛，要么不能提供最准确的解决方案。因此，所提出的算法可以安全地用于现有技术无法解决的情况。我们在几个基准测试上说明了所提出方法的优点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Convex passivity enforcement of linear macromodels via alternate subgradient iterations

This paper introduces a new algorithm for passivity enforcement of linear lumped macromodels in scattering form. As typical in most state of the art passivity enforcement methods, we start with an initial non-passive macromodel obtained by a Vector Fitting process, and we perturb its parameters to make it passive. The proposed scheme is based on a convex formulation of both passivity constraints and objective function for accuracy preservation, thus allowing a formal proof of convergence to the unique optimal passive macromodel. This is a distinctive feature that differentiates the new scheme with respect to most state of the art methods, which either do not guarantee convergence or are not able to provide the most accurate solution. The presented algorithm can thus be safely used for those cases for which existing techniques fail. We illustrate the advantages of proposed method on a few benchmarks.

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2012 IEEE 21st Conference on Electrical Performance of Electronic Packaging and Systems

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