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Clamping Force Control for an Electric Parking Brake System: Switched System Approach

Authors
Lee, Young OkSon, Young SeopChung, Chung Choo
Issue Date
Sep-2013
Publisher
Institute of Electrical and Electronics Engineers
Keywords
Electric parking brake (EPB); Lyapunov stability; self-locking; state-dependent switched system
Citation
IEEE Transactions on Vehicular Technology, v.62, no.7, pp 2937 - 2948
Pages
12
Indexed
SCI
SCIE
SCOPUS
Journal Title
IEEE Transactions on Vehicular Technology
Volume
62
Number
7
Start Page
2937
End Page
2948
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/162063
DOI
10.1109/TVT.2013.2251029
ISSN
0018-9545
1939-9359
Abstract
This paper addresses the modeling, controller design, and stability analysis of an electric parking brake system in which a screw-nut self-locking mechanism is used. The system is modeled as a state-dependent switched system according to the operating mode. A nonlinear proportional (P) clamping force controller using the measured force is proposed to enhance the performance specifications. We show the uniform stability of the state-dependent switched system with the nonlinear P controller using a common Lyapunov theorem and LaSalle's invariance principle. We derive the conditions to assure stable self-locking operation of the system. We also show the existence of the largest invariant set depending on the target braking force. This analysis offers a guideline as to how a nonlinear controller can be designed in view of the self-locking stability and control performance. Through simulation and experimental results, we confirm that the solution is locally uniformly ultimately bounded. Through the experimental results, we show that the nonlinear P controller outperforms a simple on/off controller in terms of the average and deviation of the braking force error. Furthermore, it is experimentally verified that the system is also able to function as a pseudo-antilock braking system.
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