• Title/Summary/Keyword: ABS/ASR

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Implementation and Design of HILS for Development of the ABS ECU for Commercial Vehicle (상용차용 ABS ECU 개발을 위한 HILS 시스템 설계 및 구현)

  • Hwang, D.H.;Cho, J.M.;Sim, W.J.;Park, D.Y.;Kim, Y.J.;Joh, J.S.
    • Proceedings of the KIEE Conference
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    • 2000.11d
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    • pp.609-611
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    • 2000
  • ABS(Antilock Brake System), Prevents the wheels from "locking" and improve steering during braking. Currently, safety and environmental issues are a major concern in the automotive industry. ABS has become the vital brake system HILS (Hardware In-the-Loop Simulation) is an effective tool for design. performance evaluation and test of developed vehicle subsystems such as ABS. suspension. and steering systems. This paper describes a HILS model for an ABS/ASR application Also the design and implementation of HILS system for development of the ABS ECU(Electronic Centre) Unit) for commercial vehicle are presented.

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Implementation of HILS System for Performance Test of the ABS ECU for Commercial Vehicles (상용차용 ABS ECU의 성능분석을 위한 HILS 시스템 구축)

  • Cho, J.M.;Hwang, D.H.;Park, D.Y.;Kim, Y.J.;Joh, J.S.;Park, S.K.
    • Proceedings of the KIEE Conference
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    • 2000.07d
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    • pp.2564-2566
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    • 2000
  • HILS(Hardware In-the-Loop Simulation) is an effective tool for design, performance evaluation and test of developed vehicle subsystems such as ABS(Antilock Brake System), suspension, and steering systems. This paper describes a HILS model for an ABS/ASR application. Also the implementation of HILS system for performance test of the ABS ECU(Electronic Control Unit) for commercial vehicles is presented.

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Development of HILS System for Performance Analysis of the ABS ECU for Commercial Vehicles (상용차용 ABS ECU의 성능분석을 위한 HILS 시스템 개발)

  • 황돈하;이기창;전정우;김용주;조정목;조중선
    • Journal of Institute of Control, Robotics and Systems
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    • v.8 no.10
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    • pp.898-906
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    • 2002
  • Antilock Brake System (ABS) is designed to prevent wheels from being locked-up under emergency braking of a vehicle. Therefore it improves directional stability of the vehicle, shortens stopping distance, and enhances maneuvering during braking, regardless of road conditions. Hardware In-the-Loop Simulation (HILS) is an effective tool for design Performance evaluation and test of vehicle subsystems such as ABS, active suspension, and steering systems. This paper describes a HILS model for ABS/ ASR(Acceleration Slip Regulation) system applications. A fourteen degrees-of-freedom vehicle dynamics model is simulated in an alpha-chip processor board. The proposed HILS system is tested with a basic ABS control algorithm. The design and implementation of HILS system for the ABS ECU(Electronic Control Unit) development of commercial vehicle are presented. The results show that the proposed HILS system can be used to test the performance, stability, and reliability of a vehicle under braking.

Improving Vehicle Driving Stability by Controlling CVT and Brake Force (CVT 및 BrakeForce 제어를 통한 차량 주행 안정성 향상)

  • 조현욱;이승종
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2002.05a
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    • pp.305-308
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    • 2002
  • The mechanics, electronics and manufacturing technology have been developed rapidly. Nowadays vehicle stability becomes more and more important then ABS (Anti-lo7k Brake System), ASR (Anti-Slip Regulator), TCS, (Traction Control System), ESP (Electronic Stability Program), and VDC (Vehicle Dynamic Control) which actively control the vehicle stability actively has been improved. In this study, instead of automatic transmission, CVT (Continuously Variable Transmission) is used because of the continuously gear ratio changes. It can effectively transfer the torque from engine to tire more than other gear transmission. The modeling is simplified assuming that there are no resistance parameters.

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Corner Braking Test and Simulation for Development of VDC System (VDC장치 개발을 위한 코너제동 실험 및 시뮬레이션)

  • 이창노;박혁성;김영관
    • Transactions of the Korean Society of Automotive Engineers
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    • v.11 no.2
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    • pp.211-216
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    • 2003
  • The influence of braking force generated by one tire on vehicle dynamics was investigated by simulation and ground test. A 8 d. o. f vehicle model was developed for simulation. And a special device to apply brake pressure to individual wheel was built for vehicle test. As a result of corner braking test on straight driving, the dynamic responses such as yawrate, lateral acceleration and roll angle were produced in the vehicle, which were in a good agreement to the simulation results. This shows that comer braking used in VDC system can control vehicle dynamics to improve controllability and directional stability.