Model Predictive Control Allocation of Systems with Different Dynamics

2019 IEEE Intelligent Transportation Systems Conference (ITSC) Pub Date : 2019-10-01 DOI:10.1109/ITSC.2019.8917438

Moad Kissai, B. Monsuez, X. Mouton, D. Martinez, A. Tapus

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引用次数: 6

Abstract

Several systems are integrated in passenger cars. Some of them are just redundant systems due to safety requirements. Others, are completely different and can interact with each other as long as they are operating inside the same vehicle. Control allocation methods have been successfully implemented in advanced aircrafts to avoid conflicts, especially in the context of redundant systems. In this paper, we will rather focus on coordinating non-redundant advanced chassis systems with different dynamics. This difference in dynamics can be especially problematic when systems exhibit different communication delays. Model Predictive Control Allocation (MPCA) methods are therefore investigated in order to activate the right system at the right moment. Results show that particularly when the most effective system is saturated, another system with a different time delay can be activated few steps before saturation to instantly take over the maneuver. With good knowledge of actuator dynamics and higher computation power, MPCA methods are able to solve complex problems in severe situations.

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不同动态系统的模型预测控制分配

乘用车中集成了几个系统。其中一些只是出于安全要求的冗余系统。其他的则是完全不同的，只要它们在同一辆车内操作，就可以相互交互。控制分配方法已成功地应用于先进飞机，以避免冲突，特别是在冗余系统的情况下。在本文中，我们将更侧重于协调具有不同动力学的非冗余先进底盘系统。当系统表现出不同的通信延迟时，这种动态差异可能会特别成问题。因此，研究了模型预测控制分配(MPCA)方法，以便在正确的时刻激活正确的系统。结果表明，特别是当最有效的系统饱和时，可以在饱和前几步激活另一个具有不同时间延迟的系统以立即接管机动。MPCA方法具有较强的执行机构动力学知识和较高的计算能力，能够解决复杂的、严峻的问题。

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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2019 IEEE Intelligent Transportation Systems Conference (ITSC)

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