传动系统阻尼振荡的δ域预测控制策略

Proceedings of 2012 IEEE 17th International Conference on Emerging Technologies & Factory Automation (ETFA 2012) Pub Date : 2012-09-01 DOI:10.1109/ETFA.2012.6489630

C. Budaciu, C. Lazar

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引用次数: 1

摘要

汽车工业的系统包含需要快速采样率的快速过程。此外，现有的数字硬件包含具有有限精度的处理寄存器，并且表示可以限制为有限位数。因此，在快速采样率的情况下，控制器必须在这些有限字长控制单元上实现。当模型的离散z-表示在高采样频率时会引起不稳定时，经典离散时间表示的缺点就显现出来了。当用于有限字长实现的比特数更小时，这个缺点就更强了。本文提出了一种在离散时间δ域中设计的预测控制器，并在考虑不同字长表示的情况下成功应用于传动系统。

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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Predictive control strategy in δ domain for damping oscillations in a driveline system

The systems from automotive industry contain fast processes that require fast sampling rate. Moreover, the existing digital hardware contains processing registers that have finite precision and the representation can be restricted to a finite number of bits. Thus, the controller must be implemented on these limited word length control units in the context of fast sampling rate. The drawback of the classical discrete time representation appears at high sampling frequency when discrete z- representation of the model can cause instability. This disadvantage is even stronger as the number of bits used for finite word length implementation is smaller. In this paper, a predictive controller designed in discrete time δ domain is proposed and it is successfully applied for a driveline system, considering different word length representation.

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Proceedings of 2012 IEEE 17th International Conference on Emerging Technologies & Factory Automation (ETFA 2012)

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