A Sequential-Interval Optimal Sampling Strategy Based on Reliability Prediction Under Wiener Process

Mengying Ren; Yubin Tian; Xingyu Liu; Furi Guo

doi:10.3390/math13111817

A Sequential-Interval Optimal Sampling Strategy Based on Reliability Prediction Under Wiener Process

Mengying Ren, Yubin Tian^*, Xingyu Liu, Furi Guo

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

For satellite electronic components characterized by high reliability and long lifespan, achieving improved efficiency in reliability prediction is essential when only a limited amount of data is available. Many studies have collected degradation data using uniform sampling strategies. In this work, we propose sequential-interval G- and D-optimal sampling strategies for in-orbit degradation data collection based on the Wiener process, aiming to enhance the efficiency of reliability prediction. Finally, a simulation study is performed to verify the effectiveness of the proposed strategies. This study utilizes both linear and nonlinear models of satellite MOSFETs and employs the Monte Carlo method.

Original language	English
Article number	1817
Journal	Mathematics
Volume	13
Issue number	11
DOIs	http://doi.org/10.3390/math13111817
Publication status	Published - Jun 2025
Externally published	Yes

Keywords

D-optimality
G-optimality
Wiener process
degradation data
reliability prediction

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10.3390/math13111817

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title = "A Sequential-Interval Optimal Sampling Strategy Based on Reliability Prediction Under Wiener Process",

abstract = "For satellite electronic components characterized by high reliability and long lifespan, achieving improved efficiency in reliability prediction is essential when only a limited amount of data is available. Many studies have collected degradation data using uniform sampling strategies. In this work, we propose sequential-interval G- and D-optimal sampling strategies for in-orbit degradation data collection based on the Wiener process, aiming to enhance the efficiency of reliability prediction. Finally, a simulation study is performed to verify the effectiveness of the proposed strategies. This study utilizes both linear and nonlinear models of satellite MOSFETs and employs the Monte Carlo method.",

keywords = "D-optimality, G-optimality, Wiener process, degradation data, reliability prediction",

author = "Mengying Ren and Yubin Tian and Xingyu Liu and Furi Guo",

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year = "2025",

month = jun,

doi = "10.3390/math13111817",

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volume = "13",

journal = "Mathematics",

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T1 - A Sequential-Interval Optimal Sampling Strategy Based on Reliability Prediction Under Wiener Process

AU - Ren, Mengying

AU - Tian, Yubin

AU - Liu, Xingyu

AU - Guo, Furi

PY - 2025/6

Y1 - 2025/6

N2 - For satellite electronic components characterized by high reliability and long lifespan, achieving improved efficiency in reliability prediction is essential when only a limited amount of data is available. Many studies have collected degradation data using uniform sampling strategies. In this work, we propose sequential-interval G- and D-optimal sampling strategies for in-orbit degradation data collection based on the Wiener process, aiming to enhance the efficiency of reliability prediction. Finally, a simulation study is performed to verify the effectiveness of the proposed strategies. This study utilizes both linear and nonlinear models of satellite MOSFETs and employs the Monte Carlo method.

AB - For satellite electronic components characterized by high reliability and long lifespan, achieving improved efficiency in reliability prediction is essential when only a limited amount of data is available. Many studies have collected degradation data using uniform sampling strategies. In this work, we propose sequential-interval G- and D-optimal sampling strategies for in-orbit degradation data collection based on the Wiener process, aiming to enhance the efficiency of reliability prediction. Finally, a simulation study is performed to verify the effectiveness of the proposed strategies. This study utilizes both linear and nonlinear models of satellite MOSFETs and employs the Monte Carlo method.

KW - D-optimality

KW - G-optimality

KW - Wiener process

KW - degradation data

KW - reliability prediction

UR - http://www.scopus.com/pages/publications/105007743729

U2 - 10.3390/math13111817

DO - 10.3390/math13111817

M3 - Article

AN - SCOPUS:105007743729

SN - 2227-7390

VL - 13

JO - Mathematics

JF - Mathematics

IS - 11

M1 - 1817

ER -

A Sequential-Interval Optimal Sampling Strategy Based on Reliability Prediction Under Wiener Process

Abstract

Keywords

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