Affiliation of Author(s):民航学院
Journal:IEEE Int. Conf. Progn. Health Manag., ICPHM
Abstract:—Diagnostic strategy optimization is a critical part of testability design. The complex functional structure of aircraft systems leads to a large number of failure modes and corresponding tests. Many tests of aircraft systems have multivalued attributes that correspond to different states of the system. These attributes lead to the computational complexity of existing test and diagnostic methods. Considering the multivalued test diagnosis problems of aircraft systems, this paper develops a multivalued test and diagnostic strategy optimization generation method based on rollout and information entropy. A rollout algorithm was combined with an information entropy algorithm to iteratively update information entropy and achieve balance between computational complexity and accuracy. The method is applied to the diagnostic strategy optimization generation of an engine air-bleed system for a certain type of aircraft. © 2019 IEEE.
Translation or Not:no
Date of Publication:2019-06-01
Co-author:Liang, Xuerui,Gu, Chenxuan,Khemani, Varun,Pecht, Michael
Correspondence Author:Su Yan
Associate Professor
Title : 智能电网保护和运行控制国家重点实验室客座研究员,国际IEEE Senior Member,IEEE Reliability Society Member,International Conference of Prognosis and System Health Management Committee Member(2019-2022),IEEE Global Reliability & Prognostics and Health Management Conference Committee Member(2021-2022),担任International Journal of Sy
Alma Mater:南京航空航天大学
Education Level:With Certificate of Graduation for Doctorate Study
Degree:Doctoral Degree in Engineering
School/Department:College of Civil Aviation
Discipline:Vehicle Operation Engineering
Business Address:江宁校区民航学院1002A室
Contact Information:电话:15951880209 邮件:suyannj@nuaa.edu.cn
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