• Title of article

    A data-informed PIF hierarchy for model-based Human Reliability Analysis

  • Author/Authors

    Groth، نويسنده , , Katrina M. and Mosleh، نويسنده , , Ali، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2012
  • Pages
    21
  • From page
    154
  • To page
    174
  • Abstract
    This paper addresses three problems associated with the use of Performance Shaping Factors in Human Reliability Analysis. (1) There are more than a dozen Human Reliability Analysis (HRA) methods that use Performance Influencing Factors (PIFs) or Performance Shaping Factors (PSFs) to model human performance, but there is not a standard set of PIFs used among the methods, nor is there a framework available to compare the PIFs used in various methods. (2) The PIFs currently in use are not defined specifically enough to ensure consistent interpretation of similar PIFs across methods. (3) There are few rules governing the creation, definition, and usage of PIF sets. aper introduces a hierarchical set of PIFs that can be used for both qualitative and quantitative HRA. The proposed PIF set is arranged in a hierarchy that can be collapsed or expanded to meet multiple objectives. The PIF hierarchy has been developed with respect to a set fundamental principles necessary for PIF sets, which are also introduced in this paper. This paper includes definitions of the PIFs to allow analysts to map the proposed PIFs onto current and future HRA methods. The standardized PIF hierarchy will allow analysts to combine different types of data and will therefore make the best use of the limited data in HRA. The collapsible hierarchy provides the structure necessary to combine multiple types of information without reducing the quality of the information.
  • Keywords
    Human reliability analysis , Performance influencing factors , performance shaping factors , taxonomy , Human Error
  • Journal title
    Reliability Engineering and System Safety
  • Serial Year
    2012
  • Journal title
    Reliability Engineering and System Safety
  • Record number

    1573223