Remaining useful life prediction model of the space station

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RESEARCH PAPER

Remaining useful life prediction model of the space station

Xiaopeng Li ^1,2

,

Hong-Zhong Huang ¹

,

Fuqiu Li ²

,

Liming Ren ²

1

Center for System Reliability and Safety School of Mechanical and Electrical Engineering University of Electronic Science and Technology of China Sichuan, 611731, P. R. China

2

Reliability Department China Astronautics Standards Institute Beijing, 100071, P. R. China

Publication date: 2019-09-30

Eksploatacja i Niezawodność – Maintenance and Reliability 2019;21(3):501-510

DOI: https://doi.org/10.17531/ein.2019.3.17

References (42) Citations (3)

KEYWORDS

remaining useful life prediction

Monte Carlo simulation

ABSTRACT

Space station is a very complex system, and its remaining useful life will be affected by the key equipment, cosmonauts’ maintenance activities as well as space environments. It is important for the operation management of a space station to predict its remaining useful life (RUL). A valid RUL prediction model is the key foundation for this issue, which motivates the research presented in this paper. Firstly, different types of space station life are defined. Secondly, the function and performance requirements as well as the operation mission program of the space station are analysed, which are further used to confirm the model development precondition. A life prediction model is then proposed by synthetically taking account of the safety, reliability and maintainability restrictions. Finally, the data requirement for supporting the RUL prediction is determined. Based on this work, a comprehensive procedure for RUL prediction model development is constructed for the operation management engineers of the space station. If the data of the development and operation is adequate, RUL prediction of the space station can be well implemented, and can be further leveraged to support the space station operation management.

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Reliability estimation for momentum wheel bearings considering frictional heat
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