可实现的快速增广拉格朗日优化算法及其在嵌入式MPC中的应用

2015 19th International Conference on System Theory, Control and Computing (ICSTCC) Pub Date : 2015-11-09 DOI:10.1109/ICSTCC.2015.7321360

A. Pătraşcu, I. Necoara, M. Barbu, S. Caraman

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引用次数: 1

摘要

本文提出了一种快速增广拉格朗日方法的自适应变体，用于解决嵌入式线性系统的模型预测控制中出现的线性约束凸优化问题。我们的方法主要依赖于过度间隙类平滑技术和不精确oracle框架的结合，这在[13]中有详细介绍。我们简要地给出了总计算复杂度的结果，特别是我们得到了O (1 / ε)阶投影到原始集合上的总计算复杂度，从而得到了原始问题的ε-最优解。此外，我们的快速增广拉格朗日方法的自适应变体是可实现的，即它基于可计算的停止准则并具有计算复杂度证书。这使得它适用于需要严格估计相应数值算法计算复杂度的嵌入式控制应用。

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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Implementable fast augmented Lagrangian optimization algorithm with application in embedded MPC

In this paper we present an adaptive variant of a fast augmented Lagrangian method for solving linearly constrained convex optimization problems arising e.g. in model predictive control for embedded linear systems. Mainly, our method relies on the combination of the excessive-gap-like smoothing technique and the inexact oracle framework, which have been presented in details in [13]. We briefly present the total computational complexity results, in particular we derive an overall computational complexity of order O (1 over ε) projections onto a primal set in order to obtain an ε-optimal solution for our original problem. Moreover, our adaptive variant of fast augmented Lagrangian method is implementable, i.e. it is based on computable stopping criteria and with computational complexity certificates. This makes it suitable for applications to embedded control where we need tight estimates on the computational complexity of the corresponding numerical algorithm.

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2015 19th International Conference on System Theory, Control and Computing (ICSTCC)

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