• 제목/요약/키워드: HIL driver

검색결과 7건 처리시간 0.022초

저상굴절버스 조향시스템 전자제어장치의 테스트플랫폼 구축에 관한 연구 (A Study on a Test Platform for AWS (All-Wheel-Steering) ECU (Electronic Control Unit) of the Bi-modal Tram)

  • 이수호;문경호;박태원;김기정;최성훈;김영모
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2008년도 춘계학술대회 논문집
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    • pp.1051-1059
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    • 2008
  • In the development process of an ECU (Electrical Control Unit), numerous tests are necessary to evaluate the performance and control algorithm. The vehicle based test is expensive and requires long time. Also, it is difficult to guarantee the safety of the test driver. To overcome the various problems faced in the development process, the ECU test has been done using HIL (Hardware In the Loop). The HIL environment has the actual hardware including an ECU and a virtual vehicle model. In this paper, the test platform environment is devloped for the AWS ECU black box test. The test platform is built on HIL (Hardware In the Loop) architecture. Using the developed test platform, the control algorithm of the AWS ECU can be evaluated under the virtual driving condition of the bi-modal tram. Driving conditions, such as a front steering angle and vehicle velocity, are defined through the PC (Personal Computer) input. Input signals are transformed to electrical signals in the PC. These signals become the input conditions of the AWS ECU. The AWS ECU is stimulated by arbitory input conditons, and responses of the system are observed.

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저상 굴절차량 조향 시스템 전자제어장치 테스트 플랫폼 구축 (Building the Test Platform for All Wheel Steering Control System of Bi-Modal Tram)

  • 조창연;이수호;문경호;박태원;정기현;최경희
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2007년도 추계학술대회 논문집
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    • pp.1616-1625
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    • 2007
  • Recently, embedded systems role as control systems instead of mechanical control systems in many parts of vehicles. In cases that embedded systems are used controling the electric signal, it is important to secure the reliability of a software within embedded systems. In this paper, the test platform for securing the reliability and real-time characteristic of the embedded system that controls electric signal of All Wheel Steering Control System in a Bi-modal tram is proposed. The platform is built on a HIL (Hardware In the Loop) architecture. Through the HIL platform, various vehicle conditions, driver activities and environment conditions can be successfully tested without actual driving, hence improving the reliability of the embedded system for the All Wheel Steering Control System.

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모델기반 예측 제어기를 이용한 차선유지 보조 시스템 개발 (Development of a Model Based Predictive Controller for Lane Keeping Assistance System)

  • 황준연;허건수;나혁민;정호기;강형진;윤팔주
    • 한국자동차공학회논문집
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    • 제17권3호
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    • pp.54-61
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    • 2009
  • Lane keeping assistant system (LKAS) could save thousands of lives each year by maintaining lane position and is regarded as a promising active safety system. The LKAS is expected to reduce the driver workload and to assist the driver during driving. This paper proposes a model based predictive controller for the LKAS which requires cooperative driving between the driver and the assistance system. A Hardware-In-the-Loop-Simulator (HILS) is constructed for its evaluation and includes Carsim, Matlab Simulink and a lane detection algorithm. The single camera is mounted with the HILS to acquire the monitor images and to detect the lane markers. The simulation is conducted to validate the LKAS control performance in various road scenario.

HILS 시스템을 통한 IPMSM의 철손저항 추정 (Prediction of Iron Loss Resistance by Using HILS System)

  • 정기윤;강래청;이형철
    • 한국자동차공학회논문집
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    • 제23권1호
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    • pp.25-33
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    • 2015
  • This paper presents the d-q axis equivalent circuit model of an interior permanent magnet (IPM) which includes the iron loss resistance. The model is implemented to be able to run in real-time on the FPGA-based HIL simulator. Power electronic devices are removed from the motor control unit (MCU) and a separated controller is interfaced with the real-time simulated motor drive through a set of proper inputs and outputs. The inputs signals of the HIL simulation are the gate driver signals generated from the controller, and the outputs are the winding currents and resolver signals. This paper especially presents iron loss prediction which is introduced by means of comparing the torque calculated from d-q axis currents and the desired torque; and minimizing the torque difference. This prediction method has stable prediction algorithm to reduce torque difference at specific speed and load. Simulation results demonstrate the feasibility and effectiveness of the proposed methods.

OPRoS 기반 로봇시스템의 Robot-in-the-Loop Simulation 구조 (Design of a Robot-in-the-Loop Simulation Based on OPRoS)

  • 김성훈;박홍성
    • 제어로봇시스템학회논문지
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    • 제19권3호
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    • pp.248-255
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    • 2013
  • This paper proposes the architecture of the RILS (Robot-in-the-Loop-Simulation) consisting of the robot, the virtual robot, and the avatar robot which is the type of virtual robots operating according to the robot status and behavior. And the synchronization algorithm for mobilization part of the avatar robot is suggested, which reduces the difference between behaviors of the robot and those of the avatar robot. This difference occurs due to the environmental and mechanical mismatches between the robot and avatar robot. In order to reduce this difference in robots behaviors, the synchronization algorithm controls the avatar robot based on the data observed from the robot's behavior. The proposed architecture and the synchronization algorithm are validated from some simulation results.

HILS를 이용한 전차륜 조향 시스템 장착 차량의 성능 평가 (The Evaluation of Dynamic Performance of Vehicle adopted All Steering System using Hardware In-the Loop Simulation)

  • 이수호;박태원;김기정;정기현;최경희;문경호
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2008년도 추계학술대회 논문집
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    • pp.1717-1725
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    • 2008
  • In this paper, the HILS system is proposed for the AWS ECU of the bi-modal tram. Using the HILS of the AWS ECU, the behavior of the vehicle can be predicted and the reliability of the AWS system also can be verified. The hardware part of the HILS system includes the ECUs, hydraulic systems, steering linkages and sensors of the bi-modal tram. The software part of the HILS system contains the virtual vehicle model and sensor emulation. Driver input conditions, such as vehicle velocity and front steering angle, are provided to the ECUs by the software. The driving simulation of the bi-modal tram is carried out by the HILS. Also, the reliability of the AWS system, including the ECUs and hydraulic systems, is verified.

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친환경 자동차용 통합형 전력변환장치의 개발 및 배터리 HILS를 이용한 LDC 검증에 관한 연구 (Development of the Integrated Power Converter for the Environmentally Friendly Vehicle and Validation of the LDC using Battery HILS)

  • 김태훈;송현식;이백행;이찬송;권철순;정도양
    • 전기학회논문지
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    • 제63권9호
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    • pp.1212-1218
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    • 2014
  • For OBC (On-Board Charger) and LDC (Low DC-DC Converter) used as essential power conversion systems of PHEV (Plug-in Hybrid Electric Vehicle), system performance is required as well as reliability, which is need to protect the vehicle and driver from various faults. While current development processor is sufficient for embodying functions and verifying performance in normal state during development of prototypes for OBC and LDC, there is no clear method of verification for various fault situations that occur in abnormal state and for securing stability of vehicle base, unless verification is performed by mounting on an actual vehicle. In this paper, a CCM (Charger Converter Module) was developed as an integrated structure of OBC and LDC. In addition, diverse fault situations that can occur in vehicles are simulated by a simulator to artificially inject into power conversion system and to test whether it operates properly. Also, HILS (Hardware-in-the-Loop Simulation) is carried out to verify whether LDC is operated properly under power environment of an actual vehicle.