A connectionist expert system approach to fault diagnosis in the presence of noise and redundancy

Proceedings of the International Workshop on Artificial Intelligence for Industrial Applications Pub Date : 1988-05-25 DOI:10.1109/AIIA.1988.13263

S. I. Gallant

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引用次数: 1

Abstract

The author differentiates between physical redundancy involving duplicate measurements of the same quantity and analytical redundancy involving the behavior of a collection of sensors measuring different quantities. If there are a finite number of possible faults, if each fault has a known set of ideal instrument readings (in the absence of noise), and if a model of the noise is available, then analytical redundancy relationships exist. The task of constructing expert systems for problems involving noise and redundancy is then considered. The author reviews an automated method for constructing diagnostic expert systems (MACIE). This approach is based on machine learning techniques for connectionist network models and is well suited for noisy problems. The main advantage of the MACIE system is that it only requires training examples of desired behavior to generate the final expert system. Moreover, this approach takes advantage implicitly of both types of redundancy, without the need for explicit probabilistic analysis.<>

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一种连接专家系统方法用于噪声和冗余情况下的故障诊断

作者区分了涉及相同数量的重复测量的物理冗余和涉及测量不同数量的传感器集合的行为的分析冗余。如果存在有限数量的可能故障，如果每个故障都有一组已知的理想仪器读数(在没有噪声的情况下)，并且如果噪声模型可用，则存在分析冗余关系。然后考虑了为涉及噪声和冗余的问题构建专家系统的任务。作者回顾了一种自动构建诊断专家系统(MACIE)的方法。这种方法基于连接主义网络模型的机器学习技术，非常适合于噪声问题。MACIE系统的主要优点是它只需要训练期望行为的例子来生成最终的专家系统。此外，这种方法隐含地利用了两种类型的冗余，而不需要显式的概率分析。

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 of the International Workshop on Artificial Intelligence for Industrial Applications

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