• Title/Summary/Keyword: 지능형 vehicle

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Active Handling Control of the Differential Brake System Using Fuzzy Controller (퍼지제어기를 이용한 차동브레이크 시스템의 능동 조향제어)

  • 윤여흥;장봉춘;이성철
    • Journal of the Korean Society for Precision Engineering
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    • v.20 no.5
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    • pp.82-91
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    • 2003
  • Vehicle dynamics control (VDC) has been a breakthrough and become a new terminology for the safety of a driver and improvement of vehicle handling. This paper examines the usefulness of a brake steer system (BSS), which uses differential brake forces for steering intervention in the context of VDC, In order to help the car to turn, a yaw moment can be achieved by altering the left/right and front/rear brake distribution. The steering function achieved through BSS can then be used to control lateral position in an unintended road departure system. An 8-DOF non-linear vehicle model including STI tire model will be validated using the equations of motion of the vehicle, and the non-linear vehicle dynamics. Since fuzzy logic can consider the nonlinear effect of vehicle modeling, fuzzy controller is designed to explore BSS feasibility, by modifying the brake distribution through the control of the yaw rate of the vehicle. The control strategies developed will be tested by simulation of a variety of situation; the possibility of VDC using BSS is verified in this paper.

The Design of Controller for lntelligent Cruise Control Vehicle (지능형 정속주행 차량 제어기 설계)

  • 설재훈;한창훈;임영도;이준탁;김재우
    • Proceedings of the Korean Institute of Intelligent Systems Conference
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    • 1997.11a
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    • pp.224-227
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    • 1997
  • 기존의 정속 주행시스템은 운전자가 설정하는 속도만을 유지하는 것으로, 교통량의 증가로 현재는 그 사용이 전무한 상태이다. 하지만, 심각한 교통흐름의 정체, 배기가스로 인한 환경오염 등의 문제가 최근에 대두되면서, 이러한 환경에 적절하게 적응할 수 있는 정속 주행장치의 개발이 활발하게 진행중이다. 따라서, 본 논문에서는 기존의 정속주행시스템에 Fuzzy 개념을 도입하여 좀더 안락하면서도 연료의 효율을 극대화할 수 있는 지능형 차량 정속주행 제어기를 설계, 그 성능을 평가하고자 한다. 하드웨어 구성은 기존에 사용되고 있는 cruise actuator를 이용하여 throttle valve의 각도를 제어하도록 한다. 여기서 cruise actuator를 동작시키기 위해 cruise controller로 i80c196 마이크로 콘트롤러를 사용한다.

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A Study on a Intelligence Depth Control of Underwater Flight Vehicle (Underwater Flight Vehicle의 지능형 심도 제어에 관한 연구)

  • 김현식;황수복;신용구;최중락
    • Journal of the Korea Institute of Military Science and Technology
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    • v.4 no.2
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    • pp.30-41
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    • 2001
  • In Underwater Flight Vehicle depth control system, the followings must be required. First, It needs a robust performance which can get over the nonlinear characteristics due to hull shape. Second, It needs an accurate performance which has the small overshoot phenomenon and steady state error to avoid colliding with ground surface and obstacles. Third, It needs a continuous control input to reduce the acoustic noise. Finally, It needs an effective interpolation method which can reduce the dependency of control parameters on speed. To solve these problems, we propose a Intelligence depth control method using Fuzzy Sliding Mode Controller and Neural Network Interpolator. Simulation results show the proposed control scheme has robust and accurate performance by continuous control input and has no speed dependency problem.

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Development of the Neural Network Steering Controller based on Magneto-Resistive Sensor of Intelligent Autonomous Electric Vehicle (자기저항 센서를 이용한 지능형 자율주행 전기자동차의 신경회로망 조향 제어기 개발)

  • 김태곤;손석준;유영재;김의선;임영철;이주상
    • 제어로봇시스템학회:학술대회논문집
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    • 2000.10a
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    • pp.196-196
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    • 2000
  • This paper describes a lateral guidance system of an autonomous vehicle, using a neural network model of magneto-resistive sensor and magnetic fields. The model equation was compared with experimental sensing data. We found that the experimental result has a negligible difference from the modeling equation result. We verified that the modeling equation can be used in simulations. As the neural network controller acquires magnetic field values(B$\_$x/, B$\_$y/, B$\_$z/) from the three-axis, the controller outputs a steering angle. The controller uses the back-propagation algorithms of neural network. The learning pattern acquisition was obtained using computer simulation, which is more exact than human driving. The simulation program was developed in order to verify the acquisition of the teaming pattern, teaming itself, and the adequacy of the design controller. The performance of the controller can be verified through simulation. The real autonomous electric vehicle using neural network controller verified good results.

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An Application of Computer Vision and Laser Radar to a Collision Warning System (자동차 추돌경보 시스템 개발을 위한 컴퓨터 비젼과 레이저 레이다의 응용)

  • 이준웅
    • Transactions of the Korean Society of Automotive Engineers
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    • v.7 no.5
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    • pp.258-267
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    • 1999
  • An intelligent safety vehicle(ISV) should have an ability to predict the possibility of an accident and help a driver avoid the accident in advance. The basic function of the ISV is to alert the driver by warning when the collision is to occur. For this purpose, the ISV has to function efficiently in sensing the environmental context. While image processing provides lane information, laser radar senses road obstacles including vehicles. By applying a simple clustering algorithm to radar signals, it is possible to obtain the vehicle information. Consequently, we can identify the existence of the vehicle of interest on my lane. The reliability of the sensing algorithm is evaluated by running on the highway with a test vehicle.

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Development of a intelligent suspension displacement sensor for unified chassis control of advanced safety vehicle (고안전 차량의 통합섀시 제어를 위한 지능형 현가시스템 변위 센서 개발)

  • Yun, Duk-Sun;Lee, Chang-Seok;Baek, Seong-Hwan;Kang, Tae-Ho;Boo, Kwang-Suck
    • Journal of Sensor Science and Technology
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    • v.18 no.5
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    • pp.393-401
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    • 2009
  • This paper describes development of a new displacement sensor for intelligent suspension system in which the damping force has been controlled by MR fluid. Most of the current vehicle height sensors have been installed at external place of the damper and connected to that by mechanical linkages so far. The developed sensor has a new mechanism which detects movement of the sensor rod same as connecting rod in the suspension damper by using a GMR Sensor and converts it to the relative displacement from an initial position.

Design and Application of the Warfighting Experiment Process Using the Intelligent Maturity Model in Software Intensive Systems (지능형 성숙도 모델을 이용한 소프트웨어 집약 시스템의 전투실험 프로세스 설계 및 적용)

  • Kang, Dong-Su;Yoon, Hee-Byung
    • Journal of the Korean Institute of Intelligent Systems
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    • v.17 no.5
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    • pp.668-673
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    • 2007
  • We propose the design of the warfighting experiment process for software intensive systems using the intelligent maturity model and suggest the application results of the target searching capability in smart UAV. For this, we design the intelligent maturity model to evaluate the intelligent degree of the software intensive systems considering the domain and intelligent level. Then we classify the IS0/1EC-12207 process and CMMI process as LITO domain for designing the warfighting experiment process, map the classifed process to the five factors of the warfighting experiment and derive the process as warfighting experiment element and phase. Based on the derived process, we design the warfighting experiment process using the IDEF0. Finally we apply the proposed process to the target search capability and suggest the results which are required to develop and acquire the smart UAV.

Vehicle-Tracking with Distorted Measurement via Fuzzy Interacting Multiple Model (Fuzzy Interacting Multiple Model을 이용한 관측왜곡 시스템의 차량추적)

  • Park, Seong-Keun;Hwang, Jae-Pil;Rou, Kyung-Jin;Kim, Eun-Tai
    • Journal of the Korean Institute of Intelligent Systems
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    • v.18 no.6
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    • pp.863-870
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    • 2008
  • In this paper, a new filtering scheme for vehicle tracking with distorted measurement is presented. This filtering scheme is essential for the implementation of the adaptive cruise control (ACC) system. The proposed method combines the IMM and the probabilistic fuzzy model and is named as the Fuzzy IMM (FIMM). The IMM is employed to recognize the intention of the preceding vehicle. The probabilistic furry model is introduced to compensate the distortion of the range sensor. Finally, a computer simulation is performed to illustrate the validity of the suggested algorithms.

Detecting Lane Departure Based on GIS Using DGPS (DGPS를 이용한 GIS기반의 차선 이탈 검지 연구)

  • Moon, Sang-Chan;Lee, Soon-Geul;Kim, Jae-Jun;Kim, Byoung-Soo
    • Transactions of the Korean Society of Automotive Engineers
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    • v.20 no.4
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    • pp.16-24
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    • 2012
  • This paper proposes a method utilizing Differential Global Position System (DGPS) with Real-Time Kinematic (RTK) and pre-built Geo-graphic Information System (GIS) to detect lane departure of a vehicle. The position of a vehicle measured by DGPS with RTK has 18 cm-level accuracy. The preconditioned GIS data giving accurate position information of the traffic lanes is used to set up coordinate system and to enable fast calculation of the relative position of the vehicle within the traffic lanes. This relative position can be used for safe driving by preventing the vehicle from departing lane carelessly. The proposed system can be a key component in functions such as vehicle guidance, driver alert and assistance, and the smart highway that eventually enables autonomous driving supporting system. Experimental results show the ability of the system to meet the accuracy and robustness to detect lane departure of a vehicle at high speed.

A Study of Vehicle's Sensor Signal Monitoring and Control Using Zigbee Wireless Communication and Web-based Embedded System (지그비 무선통신과 웹 기반의 임베디드 시스템을 이용한 자동차 센서신호 감시 및 제어에 관한 연구)

  • Yang, Seung-Hyun;Lee, Suk-Won
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.10 no.1
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    • pp.67-74
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    • 2009
  • In this paper, we constructed Embedded web-server to be monitored and controlled for intelligent vehicle on the base of embedded system and Zigbee wireless communication. By interfacing main controller and embedded system with ECU including every information of vehicle, it is possible to monitor the cruising information of vehicle, and sensor signal added to inside and outside of vehicle is transferred to embedded system through Zigbee communication. Web-server is constructed using embedded system, that's why the access to vehicle is possible using PC or mobile instrument, and the real-time check and control of vehicle is possible as well.