Technical gazette, Vol. 31 No. 1, 2024.
Original scientific paper
https://doi.org/10.17559/TV-20230505000608
Health Prognosis for Equipment Based on ACO-K-Means and MCS-SVM under Small Sample Noise Unbalanced Data
Qinming Liu
; Department of Industrial Engineering, Business School, University of Shanghai for Science and Technology, 516 Jungong Road, Shanghai, 200093, P. R. China
Fengze Yun
; Department of Industrial Engineering, Business School, University of Shanghai for Science and Technology, 516 Jungong Road, Shanghai, 200093, P. R. China
Ming Dong
; Department of Operations Management, Antai College of Economics & Management, Shanghai Jiao Tong University, 1954 Huashan Road, Shanghai, 200030, P.R. China
Darko Djoric
; MIND Group, Aleja Milanović bb,34325 Kragujevac, Serbia
Nikola Zivlak
; Department of Industrial Engineering and Management, Faculty of Technical Sciences, University of Novi Sad,Trg Dositeja Obradovica 6, 21000 Novi Sad, Serbia
*
* Corresponding author.
Abstract
For the problem of manufacturing system residual life prognosis with insufficient small sample data and unbalanced distribution, this paper proposes a model for equipment health status analysis and life prognosis based on improved ant colony optimization K-Means (ACO-K-Means) and multi-classification Self-Adding SVM (MCS-SVM). First, based on the fuzzy data set, the data is classified for the first time according to the traditional SVM, and the initial classification results are obtained. Second, the improved K-Means algorithm based on the ant colony algorithm is used to cluster the data set after the initial classification, to obtain more health status labels in different states.The noise scale coefficient is established, and the data set distribution is optimized by introducing the unbalanced scale standard and the adaptive addition rule, to enrich the sample capacity of the scarce label under the influence of noise. On this basis, the SVMset is introduced according to the number of clusters to achieve multi-classification of the data set. Finally, by using the state data of the hydraulic pump of Caterpillar, the simulation results show that the two improved algorithms can accurately analyze the health state and lifetime prognosis of equipment under small noise samples and unbalanced data.
Keywords
health prognosis, machine learning algorithm Noise data, state recognition, unbalanced data
Hrčak ID:
312879
URI
Publication date:
31.12.2023.
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