• Author/Authors

    Athanassios Kassidas، نويسنده , , Paul A. Taylor and John F. MacGregor، نويسنده ,

  • DocumentNumber
    1384270
  • Title Of Article

    Off-line diagnosis of deterministic faults in continuous dynamic multivariable processes using speech recognition methods

  • شماره ركورد
    11127
  • Latin Abstract
    Faults or special events which occur occasionally in continuous processes generate dynamic patterns in a large number of process variables. However, the patterns arising from the same fault can exhibit different time durations (depending on the operating conditions), magnitudes and directions. Any robust fault diagnosis method must be able to correctly classify these faults under these different conditions. This paper presents an off-line fault diagnosis method based on pattern recognition principles for multivariate dynamic data. The method consist of a filtering and scaling step, where the magnitude dependent information is removed, and a similarity assessment step via dynamic time warping (DTW). DTW is a flexible pattern matching method used in the area of speech recognition. The method presented in this paper is designed to classify faults independently of their magnitude, duration, direction and plant production level. As a further feature extraction step, principal component analysis is used to reduce the dimension of the multivariate problem and enhance the distance-based classification. Case studies from the Tennessee Eastman plant are used to test the method and to illustrate its advantages and limitations,
  • From Page
    381
  • NaturalLanguageKeyword
    Principal component analysis , Fault diagnosis , Dynamic time warping , Tennessee-Eastman simulation
  • JournalTitle
    Studia Iranica
  • To Page
    393
  • To Page
    393