Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine
In the process of extension sleeve press-fitting of the bearing pressing machine, electro-hydraulic servo system of valve-controlled symmetrical cylinder (ESSVSC) is an important and critical control module, and its performance has a significant impact on the working accuracy of such equipment. Peop...
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EDP Sciences
2025-01-01
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| Series: | Mechanics & Industry |
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| author | Chen Hongsheng |
| author_facet | Chen Hongsheng |
| author_sort | Chen Hongsheng |
| collection | DOAJ |
| description | In the process of extension sleeve press-fitting of the bearing pressing machine, electro-hydraulic servo system of valve-controlled symmetrical cylinder (ESSVSC) is an important and critical control module, and its performance has a significant impact on the working accuracy of such equipment. People have proposed various related control algorithms. However, external disturbances and unmodeled dynamic factors are often inevitable in practical work and may produce significant influences on the performance of the control system. Existing researches on this issue remains to be enriched and the performance of related algorithms still needs further improvement. An adaptive backstepping control algorithm (ABCA) is proposed in this paper. Firstly, a mathematical model of the ESSVSC is established which takes into account external disturbances and unmodeled dynamic factors. Secondly, the adaptive backstepping controller is designed by using the backstepping algorithm, and the control law and adaptive parameter estimation law are given. The stability of the control system is also proved. The analysis results of the numerical examples show that the proposed algorithm can effectively suppress the adverse effects of typical external disturbances and unmodeled dynamic factors and maintain good control accuracy. The output displacement error of the proposed algorithm is smaller and the tracking performance is better. The control accuracy of our algorithm is improved by 48.33% and 94.76% compared to BSMCA and PID, respectively, which illustrates the rationality of the established mathematical model and the effectiveness of the algorithm. This work is expected to provide useful reference for improving the control performance during the pressing process of the extension cylinder and the algorithm design of ESSVSC. |
| format | Article |
| id | doaj-art-0b8f9d8cf812447f8bdb4b22768f90a5 |
| institution | Kabale University |
| issn | 2257-7777 2257-7750 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | EDP Sciences |
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| spelling | doaj-art-0b8f9d8cf812447f8bdb4b22768f90a52025-02-07T08:25:51ZengEDP SciencesMechanics & Industry2257-77772257-77502025-01-0126310.1051/meca/2024038mi240052Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machineChen Hongsheng0Department of Electromechanical and Automobile, Chizhou Vocational and Technical CollegeIn the process of extension sleeve press-fitting of the bearing pressing machine, electro-hydraulic servo system of valve-controlled symmetrical cylinder (ESSVSC) is an important and critical control module, and its performance has a significant impact on the working accuracy of such equipment. People have proposed various related control algorithms. However, external disturbances and unmodeled dynamic factors are often inevitable in practical work and may produce significant influences on the performance of the control system. Existing researches on this issue remains to be enriched and the performance of related algorithms still needs further improvement. An adaptive backstepping control algorithm (ABCA) is proposed in this paper. Firstly, a mathematical model of the ESSVSC is established which takes into account external disturbances and unmodeled dynamic factors. Secondly, the adaptive backstepping controller is designed by using the backstepping algorithm, and the control law and adaptive parameter estimation law are given. The stability of the control system is also proved. The analysis results of the numerical examples show that the proposed algorithm can effectively suppress the adverse effects of typical external disturbances and unmodeled dynamic factors and maintain good control accuracy. The output displacement error of the proposed algorithm is smaller and the tracking performance is better. The control accuracy of our algorithm is improved by 48.33% and 94.76% compared to BSMCA and PID, respectively, which illustrates the rationality of the established mathematical model and the effectiveness of the algorithm. This work is expected to provide useful reference for improving the control performance during the pressing process of the extension cylinder and the algorithm design of ESSVSC.https://www.mechanics-industry.org/articles/meca/full_html/2025/01/mi240052/mi240052.htmlbearing pressing machineelectro-hydraulic servo systemvalve-controlled symmetrical cylinderadaptive backstepping control algorithm (abca)traditional pid control algorithm (pid)backstepping sliding mode control algorithm (bsmca) |
| spellingShingle | Chen Hongsheng Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine Mechanics & Industry bearing pressing machine electro-hydraulic servo system valve-controlled symmetrical cylinder adaptive backstepping control algorithm (abca) traditional pid control algorithm (pid) backstepping sliding mode control algorithm (bsmca) |
| title | Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine |
| title_full | Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine |
| title_fullStr | Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine |
| title_full_unstemmed | Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine |
| title_short | Adaptive backstepping control for electro-hydraulic servo system in extension sleeve press-fitting process of bearing pressing machine |
| title_sort | adaptive backstepping control for electro hydraulic servo system in extension sleeve press fitting process of bearing pressing machine |
| topic | bearing pressing machine electro-hydraulic servo system valve-controlled symmetrical cylinder adaptive backstepping control algorithm (abca) traditional pid control algorithm (pid) backstepping sliding mode control algorithm (bsmca) |
| url | https://www.mechanics-industry.org/articles/meca/full_html/2025/01/mi240052/mi240052.html |
| work_keys_str_mv | AT chenhongsheng adaptivebacksteppingcontrolforelectrohydraulicservosysteminextensionsleevepressfittingprocessofbearingpressingmachine |