The purpose of this paper is to evaluate the health-states of unit under test (UUT) in aerospace systems by means of unreliable test outcomes, and the evaluation results can provide a guide for engineers to carry out proper maintenance prior to total failure.

    Design/methodology/approach

    In this paper, the authors formulate the health-state evaluation (HSE) problem with unreliable test outcomes based on Bayes rule, and develop the Lagrangian relaxation and adaptive genetic algorithm (LRAGA) to solve it. The solution scheme can be viewed as a two-level coordinated solution framework for the HSE problem. At the top level, the Lagrange multipliers are updated by using AGA. At the bottom level, each of the sub-problems is solved by using AGA.

    Findings

    The experimental results show that the HSE model appears promising and the LRAGA can obtain the higher quality solution and converge to it at a faster rate than conventional methods (i.e. Lagrangian relaxation (LR), genetic algorithm (GA), simulated annealing (SA) and Lagrangian relaxation and genetic algorithm (LRGA).

    Research limitations/implications

    The proposed method for the HSE problem of large-scale systems which include thousands of faults and tests needs to be verified further.

    Practical implications

    The HSE results for aerospace systems can help engineers to carry out a schedule for prompt maintenance prior to UUTs' failure, to avoid the consequences of total failure. It is important to improve aerospace systems' safety, reliability, maintainability, affordability, and reduce life cycle cost.

    Originality/value

    This paper constructs the HSE model with unreliable test outcomes based on the Bayes rule and proposes a method based on LRAGA to solve the HSE problem.


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    Title :

    Health-state evaluation for aerospace systems


    Contributors:
    Tan, Xiaodong (author) / Qiu, Jing (author) / Liu, Guanjun (author) / Lv, Kehong (author)

    Published in:

    Publication date :

    2013-03-15


    Size :

    11 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English




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