A Memory-Efficient Explicit Model Predictive Control using Posits

2019 Sixth Indian Control Conference (ICC) Pub Date : 2019-12-01 DOI:10.1109/ICC47138.2019.9123179

Chaitanya Jugade, Deepak D. Ingole, D. Sonawane, M. Kvasnica, J. Gustafson

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引用次数: 2

Abstract

For explicit model predictive control (EMPC), off-line pre-computed optimal feedback laws need to be stored in a look-up table for on-line evaluation. The need for memory to store the look-up table on embedded hardware limits applicability of EMPC to systems with few states, a small number of constraints, and short prediction horizons. In this paper, we present a novel technique to reduce the memory footprints of EMPC solutions. The idea is based on encoding all data (i.e., the critical regions and the feedback laws) as positTM numbers, which can be viewed as a memory-efficient replacement for the IEEE 754 floating-point standard. By using the posit number system, we achieve more accuracy with fewer bits, and posits can be efficiently deployed on embedded hardware like PLC, FPGA, DSP, ARM, etc. We show the design and implementation of posit-based EMPC for the control of the coupled tank system. Results show that the total memory footprints can be reduced by 75% without losing control accuracy. An additional advantage of the approach is that it can be applied on the top of existing complexity reduction techniques.

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基于位置的内存高效显式模型预测控制

对于显式模型预测控制(EMPC)，需要将离线预计算的最优反馈律存储在查找表中以供在线评估。在嵌入式硬件上存储查找表需要内存，这限制了EMPC对状态少、约束少、预测范围短的系统的适用性。在本文中，我们提出了一种新的技术来减少EMPC解决方案的内存占用。这个想法是基于将所有数据(即关键区域和反馈定律)编码为正数，这可以被视为IEEE 754浮点标准的内存效率替代品。通过使用位数系统，我们可以用更少的位实现更高的精度，并且位可以有效地部署在PLC, FPGA, DSP, ARM等嵌入式硬件上。我们展示了基于正态的EMPC控制耦合油箱系统的设计和实现。结果表明，在不失去控制精度的情况下，总内存占用可以减少75%。该方法的另一个优点是，它可以应用于现有的复杂性降低技术之上。

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 Sixth Indian Control Conference (ICC)

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