• Title/Summary/Keyword: Steer-by-wire

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Control of smart actuators for networked steer-by-wire system (네트워크 기반 Steer-by-wire 시스템을 위한 지능형 엑츄에이터 제어)

  • Lee, Dong-Ik
    • Journal of Sensor Science and Technology
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    • v.15 no.6
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    • pp.425-432
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    • 2006
  • This paper presents a control algorithm for smart actuators that can be used in a 'steer-by-wire' system for next-generation intelligent automobiles. 'Steer-by-wire' is a network-based mechatronic steering system in which mechanical linkages and hydraulics are replaced by electric motors and a digital communication network. The algorithm is designed not only to achieve the capabilities of following the desired steering angles while minimizing the discrepancy between two steering wheels, but also to tolerate an actuator with faults. The proposed algorithm is based on a simple proportional control so that it can be implemented in real-time with a low-cost embedded microcontroller. The effectiveness of the control algorithm is examined using a hardware-in-the-loop simulator consisting of two DC motors and a CAN bus network.

A Robust Method of Fault Diagnosis for Steer-by-Wire System's Sensor (Steer-by-Wire 시스템의 감지기에 대한 강인한 이상진단기법)

  • Moon S.W.;Ji Y.K.;Huh K.S.;Cho D.I.;Park J.H.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.06a
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    • pp.1463-1467
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    • 2005
  • This paper proposes an analytical redundancy technique for fault diagnostics of the sensor in steer-by-wire system. We use incorporating vehicle dynamics modeling into the design of a diagnostic system for steer-by-wire system. The use of a model of vehicle dynamics improves the speed and accuracy of the diagnoses. The proposed fault diagnostics algorithm is based on parity-space methods to generate residuals. To reduce the effects of modeling uncertainty and dynamic transients, the residuals are subject to filtering. We construct diagnostic system consisting residual threshold for detection and isolator with using the directional residual vector.

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Fault Tolerant Control Strategy for Four Wheel Steer-by-Wire Systems (4륜 조향을 이용한 Steer-by-Wire 시스템의 고장 허용 제어 전략)

  • Seonghun Noh;Baek-soon Kwon
    • Journal of Auto-vehicle Safety Association
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    • v.15 no.2
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    • pp.13-20
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    • 2023
  • This paper presents a fault tolerant control strategy for Steer-by-Wire (SbW) systems. Among many problems to be solved before commercialization of SbW systems, maintaining reliability and fault tolerance in such systems are the most pressing issues. In most previous studies, dual steering motors are used to achieve actuation redundancy. However, relatively few studies have been conducted to introduce fault tolerant control strategies using rear wheel steering system. In this work, an actuator fault in front wheel steering is compensated by active rear wheel steering. The proposed fault tolerant control algorithm consists of disturbance observer and sliding mode control. The fault tolerant control performance of the proposed approach is validated via computer simulation studies with Carsim vehicle dynamics software and MATLAB/Simulink.

Fault-Tolerant Driving Control of Independent Steer-by-Wire System for 6WD/6WS Vehicles Using High Slip (고슬립을 이용한 6 륜구동/6 륜조향 차량 고장 안전 주행 제어)

  • Nah, Jae Won;Kim, Won Gun;Yi, Kyongsu;Lee, Jongseok;Lee, Daeok
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.37 no.6
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    • pp.731-738
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    • 2013
  • This paper describes a fault-tolerant driving control strategy for an independent steer-by-wire system in sixwheel-drive/six-wheel-steering vehicles. An algorithm has been designed to realize vehicle maneuverability that is as close as possible to that of non-faulty vehicles by inducing high slip ratio of the wheel through a faulty steer-by-wire system in order to reduce the lateral tire force, which is resistant to the yaw motion. Considering the transition of the longitudinal tire force of a wheel with a faulty steer-by-wire component, the longitudinal tire forces are optimally distributed to the other wheels. Fault-tolerant driving performance has been investigated via computer simulations. Simulation studies show that the proposed algorithm can significantly improve the maneuverability of a vehicle with a faulty steer-by-wire system as compared to the optimal traction distribution method.

DEVELOPMENT OF THE INDEPENDENT-TYPE STEER-BY-WIRE SYSTEM USING HILS

  • Jo, H.Y.;Lee, U.K.;Kam, M.S.
    • International Journal of Automotive Technology
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    • v.7 no.3
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    • pp.321-327
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    • 2006
  • The previous paper described the logic tuning, the vehicle manufacture and the evaluation in the HILS system for the purpose of the development of a Steer-By-Wire(SBW) system. This paper describes the content of applying to a new HILS system, the vehicle manufacture and the result of the evaluation performed in Independent-type SBW(I-SBW) system. Here, the SBW indicates the method of steering both tires by using one motor as the steering gear actuator, similar to the conventional steering system. On the other hand, the I-SBW means the method of steering both front tires independently by using dual motors as the steering gear actuator. As a result, the layout and the kinematical mechanism of the I-SBW system are quite different from those of the typical steering mechanism. Nevertheless, there is no change in the steering column motor system. In the report, we first describe the structure and control logic of the I-SBW system, and then the control effect on this system as applied for both the HILS system and a vehicle. Furthermore, our HILS system involves the actuator mechanism which realizes the reaction force of the road surface with a minimized frictional force in operation. Therefore, it is possible for us to tune the control logic via the HILS system and confirm the effect of the tuned control logic by applying it to a vehicle with the I-SBW system.

Development of a Fault-Tolerant Steer-By-Wire Control System (Fault-Tolerant Steer-By-Wire 제어 시스템의 개발)

  • Kim, Jae-Suk;Hwang, Woon-Gi;Lee, Woon-Sung
    • Transactions of the Korean Society of Automotive Engineers
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    • v.14 no.5
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    • pp.1-8
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    • 2006
  • The Steer-By-Wire(SBW) system replaces complex mechanical linkages of the current steering system with electric motors, sensors, and electronic control units. However, the SBW system should guarantee its safety and reliability before commercialization, and therefore, a reliable and robust fault-tolerant technology has to be implemented. This paper proposes a fault-tolerant control algorithm for the SBW system. Based on careful analysis on propagation effects of sensor faults, a reliable fault-tolerant control strategy has been developed. The fault-tolerant controller consists of a fault detection part that monitors and detects faults in the steering wheel and road wheel sensors, and a reconfiguration part that switches to normal sensor signal based on fault detection information. It has been demonstrated by simulation that the proposed algorithm detects sensor faults accurately and enables reliable steering control under various dynamic fault situations.

The control strategy for Steer-by-Wire test system

  • Jang, Seok-Hwan;Chae, Ho-Chol;Oh, Se-Wook;Han, Chang-Soo;Park, Tong-Jin;Yun, Seok-Chan
    • 제어로봇시스템학회:학술대회논문집
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    • 2002.10a
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    • pp.75.4-75
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    • 2002
  • $\textbullet$ Introduction $\textbullet$ Steer by wire(SBW) $\textbullet$ HILS System $\textbullet$ SBW Control Algorithm $\textbullet$ SBW-HILS $\textbullet$ Simulation $\textbullet$ Conclusion

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Fault Diagnosis for Electric Chassis System

  • Ryu, Seong-Pil;Kwak, Byung-Hak;Park, Young-Jin;Jung, Hun-Sang
    • 제어로봇시스템학회:학술대회논문집
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    • 2001.10a
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    • pp.116.1-116
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    • 2001
  • In the near future, drive-by-wire systems will replace mechanical systems of vehicles. Since there would be no mechanical redundancy in the x-by-wire subsystem, it needs to improve the reliability of the system using fault diagnosis of sensors and actuators. This paper proposes a Kalman filter based fault diagnosis method for the vehicle with the drive-by-wire system, which includes steer-by-wire, brake-by-wire and throttle-by-wire systems. We will show that the proposed method is successful in fault detection and isolation for single sensor/actuator faults of the vehicle system.

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A Study on the Fail Safety of Electronics Power Steering Using Sensor Fusion (Sensor Fusion을 이용한 전자식 조향장치의 Fail Safety 연구)

  • Kim, Byeong-Woo;Her, Jin;Cho, Hyun-Duck;Lee, Young-Seok
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.57 no.8
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    • pp.1371-1376
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    • 2008
  • A Steer-by-Wire system has so many advantages comparing with conventional mechanical steering system that it is expected to take key role in future environment friendly vehicle and intelligent transportation system. The mechanical connection between the hand wheel and the front axle will become obsolete. SBW system provides many benefits in terms of functionality, and at the same time present significant challenges - fault tolerant, fail safety - too. In this paper, failure analysis of SBW system will be performed and than sensor fusion technique will be proposed for fail safety of SBW system. A sensor fusion logic of steering angle sensor by using steering angle sensor, torque sensor and rack position sensor will be developed and simulated by fault injection simulation.