Journal
MEASUREMENT
Volume 63, Issue -, Pages 143-151Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.measurement.2014.11.031
Keywords
Remaining useful life; Relevance Vector Machine; Incremental learning; Lithium-ion battery
Funding
- National Natural Science Foundation of China [61301205]
- Government Research Key Fund [9140A17050114HT01054]
- Research Fund for the Doctoral Program of Higher Education of China [20112302120027]
- Natural Scientific Research Innovation Foundation in Harbin Institute of Technology [HIT.NSRIF.2014017]
- China Scholarship Council
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Lithium-ion battery plays a key role in most industrial systems, which is critical to the system availability. It is important to evaluate the performance degradation and estimate the remaining useful life (RUL) for those batteries. With the capability of uncertainty representation and management, Relevance Vector Machine (RVM) becomes an effective approach for lithium-ion battery RUL estimation. However, small sample size and low precision of multi-step prediction limits its application in battery RUL estimation for sparse RVM algorithm. Due to the continuous on-line update of monitoring data, to improve the prediction performance of battery RUL model, dynamic training and on-line learning capability is desirable. Another challenge in on-line and real-time processing is the operating efficiency and computational complexity. To address these issues, this paper implements a flexible and effective on-line training strategy in RVM algorithm to enhance the prediction ability, and presents an incremental optimized RVM algorithm to the model via efficient on-line training. The proposed on-line training strategy achieves a better prediction precision as well as improves the operating efficiency for battery RUL estimation. Experiments based on NASA battery data set show that the proposed method yields a satisfied performance in RUL estimation of lithium-ion battery. (C) 2014 Elsevier Ltd. All rights reserved.
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