[1] ARP1587B.Aircraft gas turbine engine health mana-gement system guide[S].New York: SAE International, 2013.
[4] WANG M, ZHANG L H, GU Q F, et al.Research on integration modular avionics system health management[C]//Proceedings of the First Symposium on Aviation Maintenance and Management, 2013: 73-85.
[5] NATO.STANAG 4626-2005 modular and open avionics architectures (Part I: architecture)[S].Brussels: North Atlantic Organization, 2005.
[6] NATO. STANAG 4626-2005 modular and open avionics architectures (Part I: system management)[S].Brussels: North Atlantic Organization, 2005.
[7] GORINEVSKY D, SMOTRICH A, MAH R, et al.Open architecture for integrated vehicle health management[C]// AIAA Infotech@Aerospace (I@A) Conference, 2010: 3434.
[8] FELKE T, HADDEN G D, MILLER D A, et al.Architectures for integrated vehicle health management[C]// AIAA Infotech@Aerospace (I@A) Conference, 2010: 3433.
[9] WANG H T, HE F, XIONG H G.Modeling of avionics blueprint architecture based on GSPN and LP[J].Aerospace Science and Technology, 2013, 26(1): 111-119.
[12] REN F Y, YU J S.Fault diagnosis methods for advanced diagnostics and prognostics testbed (ADAPT): a review[C]//The 12th IEEE International Conference on Electronic Measurement & Instruments, 2015: 175-180.
[16] SI X S, WANG W B, HU C H, et al.Remaining useful life estimation-a review on the statistical data driven approaches[J].European Journal of Operational Research, 2011, 213(1): 1-14.
[17] CHEN J, LYU Z, LIU Y Y, et al.A big data analysis and application platform for civil aircraft health management[C]//IEEE Second International Conference on Multimedia Big Data, 2016: 404-409.
[18] YANG L, WANG J, ZHANG G G.Aviation PHM system research framework based on PHM big data center[C]// IEEE International Conference on Prognostics and Health Management, 2016: 1-5.
[19] BHARADWAJ R, MYLARASWAMY D, VECHART A, et al.Case studies: use of big data for condition monitoring[C]//American Helicopter Society International- Airworthiness, CBM and HUMS Specialists'Meeting, 2015: 183-187.
[20] XU J P, XU L.Health management based on fusion prognostics for avionics systems[J].Journal of Systems Engineering and Electronics, 2011, 22(3): 428-436.
[21] LIU J, WANG W, MA F, et al.A data-model-fusion prognostic framework for dynamic system state forecasting[J].Engineering Applications of Artificial Intelligence, 2012, 25(4): 814-823.
[22] LIU Z J, LI Q, LIU X H, et al.A hybrid LSSVR/HMM-based prognostic approach[J].Sensors, 2013, 13(5): 5542-5560.
[23] SESHADRI B R, KRISHNAMURTHY T.Structural health management of damaged aircraft structures using digital twin concept[C]//The 25th AIAA/AHS Adaptive Structures Conference, 2017: 1675.
[24] HUANG B, DI Y, JIN C, et al.Review of data-driven prognostics and health management techniques: lessons learned from PHM data challenge competitions[C]//Machine Failure Prevention Technology, 2017: 1-17.
[26] BROWN D W, KALGREN P W, BYINGTON C S, et al.Electronic prognostics-a case study using Global Positioning System (GPS)[J].Microelectronics Reliability, 2007, 47(12): 1874-1881.
[27] LEI L, WANG H J.CAN bus based on intelligent built-in test technique in complex electronic system[J].Advanced Materials Research, 2011, 204-210: 1876-1879.
[28] YAO G P, HOU W K, SHI L, et al.The information-enhanced BIT design of avionics system based on fuzzy neural network[C]//Proceedings of International Conference on Mechatronic Sciences, Electric Engineering and Computer, 2013: 2950-2954.
[30] GREGORY I M, LEONARD C, SCOTTI S J.Self-aware vehicles: mission and performance adaptation to system health[C]//The 16th AIAA Aviation Technology, Inte-gration, and Operations Conference, 2015: 1-7.
[31] DERRISO M M, BURNS R S, SCHROEDER J B, et al.Integrated systems health management (ISHM) for increased autonomy[C]//AIAA Infotech@Aerospace (I@A) Conference, 2013: 4816.