LAPSE:2023.2053v1
Published Article
LAPSE:2023.2053v1
A Novel Back-Stepping Sliding Mode Control Strategy of Direct-Drive Wave Energy Converters
February 21, 2023
Abstract
In this paper, a maximum energy extraction and tracking strategy for direct-drive wave energy converters (DDWECs) based on back-stepping and sliding mode control strategies are developed. It is well known that the existence of the chattering phenomenon degrades the control performance of conventional sliding mode control (SMC). To mitigate the effects of flutter and external disturbances, a back-stepping sliding model control (BSMC) scheme is proposed. The main features of the proposed methodology are as follows: (1) By using the proposed BSMC, the maximum wave energy of DDWEC can be captured. Moreover, the speed tracking of the permanent magnet linear generator (PMLG), which is a subsystem of DDWEC, tracked in real-time. (2) By virtue of the proposed BSMC, the closed-loop control system is asymptotically stable in finite time. (3) With the superior controllability of the BSMC, it can handle disturbances that the SMC cannot handle. Comprehensive and comparative studies are proved to be superior to the most advanced method
In this paper, a maximum energy extraction and tracking strategy for direct-drive wave energy converters (DDWECs) based on back-stepping and sliding mode control strategies are developed. It is well known that the existence of the chattering phenomenon degrades the control performance of conventional sliding mode control (SMC). To mitigate the effects of flutter and external disturbances, a back-stepping sliding model control (BSMC) scheme is proposed. The main features of the proposed methodology are as follows: (1) By using the proposed BSMC, the maximum wave energy of DDWEC can be captured. Moreover, the speed tracking of the permanent magnet linear generator (PMLG), which is a subsystem of DDWEC, tracked in real-time. (2) By virtue of the proposed BSMC, the closed-loop control system is asymptotically stable in finite time. (3) With the superior controllability of the BSMC, it can handle disturbances that the SMC cannot handle. Comprehensive and comparative studies are proved to be superior to the most advanced method
Record ID
Keywords
back-stepping sliding mode control, direct-drive wave energy converters, permanent magnet linear generator, wave energy tracking
Subject
Suggested Citation
Weng S, Wang J. A Novel Back-Stepping Sliding Mode Control Strategy of Direct-Drive Wave Energy Converters. (2023). LAPSE:2023.2053v1
Author Affiliations
Weng S: Institute of Marine, Xiamen Ocean Vocational College, Xiamen 361012, China
Wang J: Institute of Marine, Xiamen Ocean Vocational College, Xiamen 361012, China
Wang J: Institute of Marine, Xiamen Ocean Vocational College, Xiamen 361012, China
Journal Name
Processes
Volume
10
Issue
7
First Page
1385
Year
2022
Publication Date
2022-07-15
ISSN
2227-9717
Version Comments
Original Submission
Other Meta
PII: pr10071385, Publication Type: Journal Article
Record Map
Published Article
LAPSE:2023.2053v1
This Record
External Link
https://doi.org/10.3390/pr10071385
Publisher Version
Download
Meta
Record Statistics
Record Views
258
Version History
[v1] (Original Submission)
Feb 21, 2023
Verified by curator on
Feb 21, 2023
This Version Number
v1
Citations
Most Recent
This Version
URL Here
https://psecommunity.org/LAPSE:2023.2053v1
Record Owner
Auto Uploader for LAPSE
Links to Related Works
[0.31 s]