Empirical Evaluation of Diagnostic Algorithm Performance Using a Generic Framework

Shared by SCOTT POLL, updated on Nov 22, 2010

Summary

Author(s) :
Alexander Feldman, Tolga Kurthoglu, Sriram Narasimhan, Scott Poll, David Garcia, Johan De Kleer, Lukas Kuhn, Arjan Van Gemund
Abstract

A variety of rule-based, model-based and data-driven techniques have been proposed for detection and isolation of faults in physical systems. However, there have been few efforts to comparatively analyze the performance of these approaches on the same system under identical conditions. One reason for this was the lack of a standard framework to perform this comparison. In this paper we introduce a framework, called DXF, that provides a common language to represent the system description, sensor data and the fault diagnosis results; a run-time architecture to execute the diagnosis algorithms under identical conditions and collect the diagnosis results; and an evaluation component that can compute performance metrics from the diagnosis results to compare the algorithms. We have used DXF to perform an empirical evaluation of 13 diagnostic algorithms on a hardware testbed (ADAPT) at NASA Ames Research
Center and on a set of synthetic circuits
typically used as benchmarks in the model-based diagnosis community. Based on these empirical data we analyze the performance of each algorithm and suggest directions for future development.

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International Journal of Prognostics and Health Management paper
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