• 제목/요약/키워드: Vehicle-to-Vehicle Distance Control

검색결과 278건 처리시간 0.029초

Vehicle Tests of a Longitudinal Control Law for Application to Stop-and-Go Cruise Control

  • Moon, Ilki;Yi, Kyongsu
    • Journal of Mechanical Science and Technology
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    • 제16권9호
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    • pp.1166-1174
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    • 2002
  • This paper presents the implementation and vehicle tests of a vehicle longitudinal control scheme for Stop and Go cruise control. The control scheme consists of a vehicle-to-vehicle distance control algorithm and throttle/brake control algorithm for acceleration tracking. The desired acceleration of a vehicle for vehicle-to-vehicle distance control has been designed using Linear Quadratic optimal control theory. Performance of the control algorithm has been investigated via vehicle tests. A millimeter wave radar sensor has been used for distance measurement. A stepper motor and an electronic vacuum booster have been used for throttle/brake actuators, respectively. It has been shown that the proposed control algorithm can provide satisfactory performance.

차량 궤적 예측기법을 이용한 차간 거리 제어 (Vehicle - to - Vehicle Distance Control using a Vehicle Trajectory Prediction Method)

  • 조상민;이경수
    • 한국자동차공학회논문집
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    • 제10권3호
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    • pp.123-129
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    • 2002
  • This paper proposes a vehicle trajectory prediction method far application to vehicle-to-vehicle distance control. This method is based on 2-dimensional kinematics and a Kalman filter has been used to estimate acceleration of the object vehicle. The simulation results using the proposed control method show that the relative distance characteristics can be improved via the trajectory prediction method compared to the customary intelligent cruise control algorithm.

차량 궤적 예측기법을 이용한 차량 정지/서행 순항 제어 (Vehicle Stop and Go Cruise Control using a Vehicle Trajectory Prediction Method)

  • 조상민;이경수
    • 한국자동차공학회논문집
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    • 제10권5호
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    • pp.206-213
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    • 2002
  • This paper proposes a vehicle trajectory prediction method for application to vehicle-to-vehicle distance control. This method is based on 2-dimensional kinematics and a Kalman filter has been used to estimate acceleration of the object vehicle. The simulation results using the proposed control method show that the relative distance characteristics can be improved via the trajectory prediction method compared to the customary vehicle stop and go cruise control systems which makes the vehicle remain at a safe distance from a preceding vehicle according to the driver's preference, automatically slow down and come to a full stop behind a preceding vehicle.

Hardware-in-the Loop Simulation 을 통한 차간거리 제어시스템의 제어 성능 연구 (An Investigation of Vehicle-to-Vehicle Distance Control Laws Using Hardware-in-the Loop Simulation)

  • 이경수;이찬규
    • 대한기계학회논문집A
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    • 제26권7호
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    • pp.1401-1407
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    • 2002
  • This paper represents an investigation of the vehicle-to-vehicle distance control system using Hardware-in-the-Loop Simulation(HiLS). Control logic is primarily developed and tested with a specially equipped test vehicle. Establishment of an efficient and low cost development tool is a very important issue, and test vehicle approach is costly and time consuming. HiLS method is useful in the investigation of driver assistance and active safety systems. The HiLS system consists of a stepper motor for throttle control, a hydraulic brake system with an electronic vacuum booster, an electronic controller unit, a data logging computer which are used to save vehicle states and signals of actuator through a CAN and a simulation computer using mathematical vehicle model. Adaptation of a CAN instead of RS-232 Serial Interface for communication is a trend in the automotive industry. Since this environment is the same as a test vehicle, a control logic verified in laboratory can be easily transferred to a test vehicle.

차간거리제어 Hardware-in-the-Loop 시뮬레이션 (Hardware-in-the-Loop Simulation of a Vehicle-to-Vehicle Distance Control System)

  • 문일기;이찬규;이경수;권영도
    • 대한기계학회:학술대회논문집
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    • 대한기계학회 2001년도 춘계학술대회논문집B
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    • pp.741-746
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    • 2001
  • This paper presents an investigation of a vehicle-to-vehicle distance control using a Hardware-in-the-Loop Simulation(HiLS) system. Since vehicle tests are costly and time consuming, how to establish a efficient and low cost development tool is an important issue. The HiLS system consists of a stepper motor, an electronic vacuum booster, a controller unit and two computers which are used to form real time simulation and to save vehicle parameters and signals of actuator through a CAN(Controller Area Network). Adoption of a CAN for communication is a trend in the automotive industry. Since this environment is the same as that of a real vehicle, a distance control logic verified in laboratory can be easily transfered to a test vehicle.

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찻간 속도/거리제어를 위한 구동력/제동력 통합제어 (Throttle/Brake Combined Control for Vehicle-to-vehicle Distance and Speed Control)

  • 이세진;이경수
    • 한국자동차공학회논문집
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    • 제9권2호
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    • pp.137-142
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    • 2001
  • A throttle/brake control law for the intelligent cruise control(ICC) systems has been proposed in this paper. The ICC system consists of a vehicle detection sensor, the control algorithm and a throttle/brake actuators. The control performance has been investigated through vehicle tests. The test vehicle is equipped with a MMW radar sensor, a solenoid-valve-controlled Electronic-Vacuum-Booster(EVB) and a step-motor controlled throttle actuator. The results indicate the proposed throttle/brake control laws can provide satisfactory vehicle-to-vehicle distance and velocity control performance.

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인터넷을 이용한 지능형 무인 차량의 원격제어 (Remote Control of an unmaned vehicle of shortage of hands using Internet)

  • 김승철;김남수;임영도
    • 융합신호처리학회논문지
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    • 제3권4호
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    • pp.57-61
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    • 2002
  • We design Collision Avoidance System using model vehicle. The purpose of this system(Collision Avoidance System) is to maintain continuously constant distance between a forward running vehicle and a following automatic guided vehicle(AGV). For this system, we design modeling of vehicle and observe this through simulation. By sing super sonic sensors to measure the distance between vehicles and controller using 80c196kc for changing velocity of motor, we design Collision Avoidance System as maintaining continuously constant distance between vehicles.

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레이저스캐너를 이용한 차량저속운전보조장치의 설계 (Design of Vehicle Low speed Drive Assistant System with Laser Scanner)

  • 문희창;손영진;김정하
    • 제어로봇시스템학회논문지
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    • 제14권8호
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    • pp.856-864
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    • 2008
  • This paper describes a vehicle low speed driving assistant (VLDA) system that is composed of laser scanner. This vehicle is designed for following lead vehicle (LV) without driver's operation. The system is made up several component systems that are based on unmanned ground vehicle (UGV). Each component system is applied to use advanced safety vehicle developed to complete UGV system. VLDA system was divided into vehicle control system and obstacle detecting system. The obstacle detecting system calculate distance and angle of LV and transmit these data to vehicle control system using front, left and right laser scanners. Vehicle control system makes vehicle control values such as steering angle, acceleration and brake position and control vehicle's movement with steering, acceleration and brake actuators. In this research, we designed VLDA system like as low speed cruise control system and test it on real road environments.

Modeling and Control of an Electronic-Vacuum Booster for Vehicle Cruise Control

  • Lee, Chankyu;Kyongsu Yi
    • Journal of Mechanical Science and Technology
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    • 제16권10호
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    • pp.1314-1319
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    • 2002
  • A mathematical model and control laws for an Electronic-Vacuum Booster (EVB) for application to vehicle cruise control will be presented. Also this paper includes performance test result of EVB and vehicle cruise control experiments. The pressure difference between the vacuum chamber and the apply chamber is controlled by a PWM-solenoid-valve. Since the pressure at the vacuum chamber is identical to that of the engine intake manifold, the output of the electronic-vacuum booster Is sensitive to engine speed. The performance characteristics of the electronic-vacuum booster have been investigated via computer simulations and vehicle tests. The mathematical model of the electronic-vacuum booster developed in this study and a two-state dynamic engine model have been used in the simulations. It has been shown by simulations and vehicle tests that the EVB-cruise control system can provide a vehicle with good distance control performance in both high speed and low speed stop and go driving situations.

Backstepping 방법을 이용한 IVHS에서의 차량군 리드 차량의 종렬제어기 설계 (Longitudinal Control of the Lead Vehicle of a Platoon in IVHS using Backstepping Method)

  • 박종호;정길도
    • 한국정밀공학회지
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    • 제17권5호
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    • pp.137-144
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    • 2000
  • In this paper, a longitudinal control of the lead vehicle for a platoon in IVHS Regulation Layer is proposed. The backstepping method has been used for the controller design. This method has an advantage in that its stability need not be proven since the controller is designed based on the Lyapunov Function. The control object is that the lead vehicle tracks a reference velocity and maintains a safe distance between the inter-platoons while the followers are keeping the speed of the lead vehicle of a platoon. The coordinate of system is transformed to a new coordinate system for its convenience to design controller. The new coordinate system is composed of error and new error variable. The error is the difference between the safe distance and the actual distance of inter-platoons. A new error variable is the difference between the velocity of vehicle and the estimated state of a system operated by the virtual input. The Lyapunov function is obtained based on the variables of new coordinate system. In the computer simulation, several cases have been studied such as when the lead vehicle is tracking the optimal speed. or a lead vehicle of the following platoon tracks the velocity of the previous platoon while maintaining a safe distance. Also a nonlinear engine time constant case has been investigated. All the simulation results show that the designed controller satisfies the control object sufficiently.

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