诊断功能的组件本体表示

Proceedings of the Tenth Conference on Artificial Intelligence for Applications Pub Date : 1994-03-01 DOI:10.1109/CAIA.1994.323641

A.N. Kumar, S. Upadhyaya

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引用次数: 5

摘要

在基于模型的诊断过程中，用函数代替故障概率进行候选判别，具有函数更容易获得、便于解释生成等优点。然而，当前的函数表示依赖于上下文和基于状态，这使得它们效率低下且耗时。我们提出类作为基于组件本体原则的诊断功能表示方案，即，我们根据组件功能的端口定义组件功能(称为类)。该方案在复杂度上是空间和时间线性的，因此是高效的。它也是独立于领域的，并可扩展到复杂设备的表示。我们演示了该表示在打印机缓冲板诊断中的实用性。

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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Component ontological representation of function for diagnosis

Using function instead of fault probabilities for candidate discrimination during model based diagnosis has the advantages that function is more readily available, and facilitates explanation generation. However, current representations of function have been context dependent and state based, making them inefficient and time consuming. We propose classes as a scheme of representation of function for diagnosis based on component ontology principles, i.e., we define component functions (called classes) with respect to their ports. The scheme is space and time-wise linear in complexity, and hence, efficient. It is also domain-independent and scalable to representation of complex devices. We demonstrate the utility of the representation for the diagnosis of a printer buffer board.<>

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Proceedings of the Tenth Conference on Artificial Intelligence for Applications

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