Multivariable GPC for processes with multiple time delays: Implementation issues

A. Pawłowski, J. L. Guzmán, M. Berenguel, J. Normey-Rico, S. Dormido
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引用次数: 1

Abstract

In this work, implementation issues related to multivariable Generalized Predictive Control (GPC) for processes with multiple time delays are analyzed. Due to specific properties of those processes, the resulting control system has to account for the existing delays between control variables changes and their effect on controlled outputs. In the case of Model Predictive Control (MPC) techniques, such as GPC, the dead-time issue can be captured in the process model and thus considered in the predictive mechanism of the controller. However, this working principle results in augmented matrix dimensions that considers input-output time delays as additional zero entries. This fact increases the computational load and has to be accounted for in the control system design, specially in systems where computing resources are scarce (eg. embedded systems). The reduction of the matrix dimension, and hence the computation required, depends on how the delay terms are structured. The presented analysis considers two different GPC implementations for multivariable dead-time processes, which are used to compensate for internal matrix dimensions for the multiple time delays. Each implementation mode is evaluated for two industrial multivariable processes, providing several performance indexes. Performed simulations show that the required computational load can be reduced when adequate implementation mode is selected.
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具有多个时间延迟的过程的多变量GPC:实现问题
在这项工作中,分析了多变量广义预测控制(GPC)在多时滞过程中的实现问题。由于这些过程的特殊性质,所得到的控制系统必须考虑控制变量变化及其对被控输出的影响之间存在的延迟。在模型预测控制(MPC)技术中,如GPC,死区时间问题可以在过程模型中捕获,从而在控制器的预测机制中考虑。然而,这种工作原理会导致矩阵维度的增加,将输入-输出时间延迟视为额外的零条目。这一事实增加了计算负荷,必须在控制系统设计中加以考虑,特别是在计算资源稀缺的系统中。嵌入式系统)。矩阵维数的降低以及所需的计算量取决于延迟项的结构。本文的分析考虑了两种不同的多变量死时过程的GPC实现,这两种实现用于补偿多个时间延迟的内部矩阵维度。对两个工业多变量过程的每种实施模式进行了评估,提供了几个性能指标。仿真结果表明,选择适当的实现方式可以减少所需的计算负荷。
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