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Tire Normal Force Estimation Based on Integrated Suspension State Measurement

Title
Tire Normal Force Estimation Based on Integrated Suspension State Measurement
Author(s)
Cheon, DasolChoi, WonhyeokNam, KanghyunOh, Sehoon
Issued Date
2024-06
Citation
International Journal of Control, Automation, and Systems, v.22, no.6, pp.1902 - 1911
Type
Article
Author Keywords
observabilitysemi-active suspensionvertical tire force observerGaussian road model
Keywords
MOTION CONTROLYAW STABILITY
ISSN
1598-6446
Abstract
The vertical tire force can be utilized to obtain information on the longitudinal and lateral force of the tire through the tire friction circle. This means that ride safety can be improved by using the longitudinal force that affects the vehicle’s driving performance and the lateral force that allows for stable cornering without slips. In this paper, we propose a vertical tire force estimation method using sensors that can be implemented in the vehicle. First, the issue of the observability of the tire force is investigated, then we introduce a tire force observer that utilizes the acceleration of the sprung and the displacement between the sprung and unsprung mass. In the proposed observer design, the change in the road surface is taken into consideration as a Gaussian random variable. In addition, a 1/5 scaled quarter car model is developed as an experimental apparatus to evaluate the proposed method, and the proposed method is validated through simulation and experiment. © ICROS, KIEE and Springer 2024.
URI
http://hdl.handle.net/20.500.11750/56641
DOI
10.1007/s12555-023-0768-x
Publisher
Institute of Control, Robotics and Systems (ICROS) and the Korean Institute of Electrical Engineers (KIEE)
Related Researcher
  • 오세훈 Oh, Sehoon
  • Research Interests Research on Human-friendly motion control; Development of human assistance;rehabilitation system; Design of robotic system based on human musculoskeletal system; Analysis of human walking dynamics and its application to robotics; 친인간적인 운동제어 설계연구; 인간 보조;재활 시스템의 설계 및 개발연구; 인간 근골격계에 기초한 로봇기구 개발연구; 보행운동 분석과 모델 및 로봇기구에의 응용
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Appears in Collections:
Department of Robotics and Mechatronics Engineering MCL(Motion Control Lab) 1. Journal Articles

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