Hierarchical control of a nuclear reactor using uncertain dynamics techniques

Proceedings IEEE International Symposium on Intelligent Control 1988 Pub Date : 1988-08-24 DOI:10.1109/ISIC.1988.65519

L. Rovere, P.J. Otaduy, C. R. Brittain, R. B. Perez

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引用次数: 1

Abstract

Good agreement is shown between a centralized and a hierarchical implementation of a controller for a hypothetical nuclear power plant subject to multiple demands. The performance of the hierarchical distributed system in the presence of localized subsystem failures is analyzed. The proposed approach to the hierarchical control of large systems eliminates the need for the typical iterative computations to account for the coupling effects between subsystems. In addition, the computational independence between the unknown terms generated by each subsystem's controller facilitates both its implementation in a distributed network of CPUs and the isolation and diagnosis of sensor and system component failures. The role of the coordinator is transformed from that of an inflexible black-box-like numerical procedure to that of an intelligent supervisor of subsystem performance. By incorporating symbolic and numerical recipes, the supervisor issues the appropriate set of demands for each subsystem required for the specific goal. It is the task of the individual subsystem controllers to fulfil those demands in an optimal fashion.<>

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核反应堆的不确定动力学分级控制

对于一个多需求的假想核电站，集中式和分层式控制器的实现具有很好的一致性。分析了存在局部子系统故障时分层分布式系统的性能。提出的大系统分层控制方法消除了考虑子系统之间耦合效应的典型迭代计算的需要。此外，每个子系统控制器产生的未知项之间的计算独立性有利于其在cpu的分布式网络中实现，也有利于传感器和系统组件故障的隔离和诊断。协调器的角色从一个呆板的黑盒式数值过程转变为子系统性能的智能监督者。通过结合符号和数字配方，主管对实现特定目标所需的每个子系统发出适当的需求集。各个子系统控制器的任务是以最优的方式来满足这些需求。

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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Proceedings IEEE International Symposium on Intelligent Control 1988

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