• 제목/요약/키워드: Autonomous Steering System

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Development of Steering Control System for Autonomous Vehicle Using Geometry-Based Path Tracking Algorithm

  • Park, Myungwook;Lee, Sangwoo;Han, Wooyong
    • ETRI Journal
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    • 제37권3호
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    • pp.617-625
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    • 2015
  • In this paper, a steering control system for the path tracking of autonomous vehicles is described. The steering control system consists of a path tracker and primitive driver. The path tracker generates the desired steering angle by using the look-ahead distance, vehicle heading, and a lateral offset. A method for applying an autonomous vehicle to path tracking is an advanced pure pursuit method that can reduce cutting corners, which is a weakness of the pure pursuit method. The steering controller controls the steering actuator to follow the desired steering angle. A servo motor is installed to control the steering handle, and it can transmit the steering force using a belt and pulley. We designed a steering controller that is applied to a proportional integral differential controller. However, because of a dead band, the path tracking performance and stability of autonomous vehicles are reduced. To overcome the dead band, a dead band compensator was developed. As a result of the compensator, the path tracking performance and stability are improved.

자율 주행 트랙터 시스템의 성능 향상을 위한 CAN 기반의 조향제어시스템 개발 (Development of Steering Control System based on CAN for Autonomous Tractor System)

  • 서동현;서일환;정선옥;김기대
    • 농업과학연구
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    • 제37권1호
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    • pp.123-130
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    • 2010
  • A steering control system based on CAN(Controller Area Network) for autonomous tractor was developed to reduce duty of a central processing computer and to improve performance of steering control in terms of reduced control interval and error. The steering control system consisted of a SCU (Steering Control Unit), an EHPS system, and a potentiometer. The SCU consisted of an MCU (Micro Controller unit), an A/D converter, and a DC-DC converter, and a PID controller was used to control steering angle. The steering control system was communicated with the computer by CAN-bus. Each actuator and implement was connected to a multi-function board interfacing with the computer through a USB cable. Without CAN, control interval of the autonomous tractor was 1.5 seconds. When the CAN-based steering control system was combined with the autonomous tractor, however, control interval of the integrated system was reduced to those less than 0.05 seconds. When the autonomous tractor was operated with 1.5-s and 0.05-s control cycles at a 0.63-m/s travelling speed, the trajectories were close to straight lines for both of the control cycles. For a 1.34-m/s traveling speed, tractor trajectory was close to sine wave with a 1.5-s control cycle, but was straight line with a 0.05-s control cycle.

Empirical Modeling of Steering System for Autonomous Vehicles

  • Kim, Ju-Young;Min, Kyungdeuk;Kim, Young Chol
    • Journal of Electrical Engineering and Technology
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    • 제12권2호
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    • pp.937-943
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    • 2017
  • To design an automatic steering controller with high performance for autonomous vehicle, it is necessary to have a precise model of the lateral dynamics with respect to the steering command input. This paper presents an empirical modeling of the steering system for an autonomous vehicle. The steering system here is represented by three individual transfer function models: a steering wheel actuator model from the steering command input to the steering angle of the shaft, a dynamic model between the steering angle and the yaw rate of the vehicle, and a dynamic model between the steering command and the lateral deviation of vehicle. These models are identified using frequency response data. Experiments were performed using a real vehicle. It is shown that the resulting identified models have been well fitted to the experimental data.

자율주행 경로 추종 성능 개선을 위한 차량 조향 시스템 특성 분석 (Vehicle Steering System Analysis for Enhanced Path Tracking of Autonomous Vehicles)

  • 김창희;이동필;이경수
    • 자동차안전학회지
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    • 제12권2호
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    • pp.27-32
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    • 2020
  • This paper presents steering system requirements to ensure the stabilized lateral control of autonomous driving vehicles. The two main objectives of a lateral controller in autonomous vehicles are maintenance of vehicle stability and tracking of the desired path. Even if the desired steering angle is immediately determined by the upper level controller, the overall controller performance is greatly influenced by the specification of steering system actuators. Since one of the major inescapable traits that affects controller performance is the time delay of the steering actuator, our work is mainly focused on finding adequate parameters of high level control algorithm to compensate these response characteristics and guarantee vehicle stability. Actual vehicle steering angle response was obtained with Electric Power Steering (EPS) actuator test subject to various longitudinal velocity. Steering input and output response analysis was performed via MATLAB system identification toolbox. The use of system identification is advantageous since the transfer function of the system is conveniently obtained compared with methods that require actual mathematical modeling of the system. Simulation results of full vehicle model suggest that the obtained tuning parameter yields reduced oscillation and lateral error compared with other cases, thus enhancing path tracking performance.

Steering Characteristics of an Autonomous Tractor with Variable Distances to the Waypoint

  • Kim, Sang Cheol;Hong, Yeong Gi;Kim, Kook Hwan
    • Journal of Positioning, Navigation, and Timing
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    • 제2권2호
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    • pp.123-130
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    • 2013
  • Autonomous agricultural machines that are operated in small-scale farmland frequently experience turning and changes in direction. Thus, unlike when they are operated in large-scale farmland, the steering control systems need to be controlled precisely so that travel errors can be minimized. This study aims to develop a control algorithm for improving the path tracking performance of a steering system by analyzing the effect of the setting of the waypoint, which serves as the reference point for steering when an autonomous agricultural machine moves along a path or a coordinate, on control errors. A simulation was performed by modeling a 26-hp tractor steering system and by applying the equations of motion of a tractor, with the use of a computer. Path tracking errors could be reduced using an algorithm which sets the waypoint for steering on a travel path depending on the radius of curvature of the path and which then controls the speed and steering angle of the vehicle, rather than by changing the steering speed or steering ratio which are dependent on mechanical performance.

SOM을 이용한 자율주행로봇의 횡 방향 제어에 관한 연구 (A Study on the Steering Control of an Autonomous Robot Using SOM Algorithms)

  • 김영욱;김종철;이경복;한민홍
    • 융합신호처리학회논문지
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    • 제4권4호
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    • pp.58-65
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    • 2003
  • 기존의 횡 방향제어 알고리즘은 도로에서 발생할 수 있는 변수를 고려하여 알고리즘을 작성해야 했다. 이러한 제어 알고리즘을 작성하기 위해서는 주행해야 하는 도로에 따라 파라미터를 재조정해야 하는 문제와 대량의 계산이 요구되는 모델링 문제가 있었다. 본 논문에서는 지능적 횡 방향제어가 가능한 학습알고리즘에 관해 연구하였다. 학습알고리즘은 인공지능 알고리즘 중 자기구성 알고리즘을 사용하였으며 학습데이터는 도로의 특징점을 이용하였다. 컴퓨터를 이용한 시뮬레이션 결과 본 논문의 학습알고리즘에 의한 조향제어가 가능한 것을 알 수 있었고 실제로 주행이 가능한 자율이동로봇에 적용하여 학습에 의한 횡 방향제어가 가능한 것을 확인하였다.

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Autonomous guidance Using Ultrasonic Sensors for a Small Orchard Sprayer

  • Shin, Beom-Soo;Kim, Sang-Hun;Koo, Young-Mo
    • Agricultural and Biosystems Engineering
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    • 제2권2호
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    • pp.50-58
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    • 2001
  • Chemical application is very hazardous in confined spaces under the canopy ceiling in Korean vineyard. For a small orchard sprayer adaptable to such a working condition, a low-cost autonomous steering control system was developed using two ultrasonic sensors, two electrically-operated cylinders and 80196kc microprocessor. A distance ranging system timed the round-trip for each ultrasonic wave to travel against parallel targets, placed every 1.5m spacing along both sides of a desired path. A steering control algorithm of the autonomous operation began with ranging left and right targets and the heading was decided using difference between the distances. Electrically-operated cylinders actuated steering clutches to guide the sprayer. Evaluation tests showed that the orchard sprayer could travel within RMS value of 5cm along the desired path. Ground speed did not affect the performance of the autonomous guidance system at the speed ranges of 0.29~0.52m/sec.

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위성항법 기반 AGV(Autonomous Guided Vehicle)의 조향 성능 시험 (Steering Performance Test of Autonomous Guided Vehicle(AGV) Based on Global Navigation Satellite System(GNSS))

  • 강우용;이은성;김정원;허문범;남기욱
    • 한국항공우주학회지
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    • 제38권2호
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    • pp.180-187
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    • 2010
  • 본 논문에서는 위성항법 기반의 위치 정보만을 이용하여 저속으로 운행하는 이동체의 제어 성능을 확인하기 위해서 골프장에 무인으로 운행하는 AGV(Autonomous Guided Vehicle)를 위성항법 기반의 AGV로 구성하여 조향 시험을 수행하였다. 이를 위해 기존 AGV 시스템의 구성에 대한 분석을 수행한 후 위성항법 기반의 위치 정보를 이용하여 조향 제어가 가능하도록 제어기 및 조향 제어 알고리즘을 개발하였다. AGV의 조향 성능을 알기 위해서 직선과 원형으로 이루어진 기준궤적을 생성하여 시험을 수행하였으며 시험 결과 기준궤적에서 ${\pm}0.2m$ 범위 안으로 조향 제어가 가능함을 확인하였다.

자동 차선 유지 시스템의 전기식 파워 조향 시스템을 위한 슬라이딩 모드 제어기 (Sliding Mode Control for an Electric Power Steering System in an Autonomous Lane Keeping System)

  • 유준영;김원희;손영섭;정정주
    • 제어로봇시스템학회논문지
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    • 제21권2호
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    • pp.95-101
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    • 2015
  • In this paper, we develop a sliding mode control for steering wheel angle control based on torque overlay in order to resolve the problem of previous methods for Electric Power Steering (EPS) systems in the Lane Keeping System (LKS) of autonomous vehicles. For the controller design, we propose a 2nd order model of the electric power steering system in an autonomous LKS. The desired state model is designed to prevent a rapid change of the steering wheel angle. The sliding mode steering wheel angle controller is developed for the robustness of the disturbance. Since the proposed method is designed based on torque overlay, torque integration with basic functions of the EPS system for the steering wheel angle control is available for the driver's convenience. The performance of the proposed method was validated via experiments.

비젼 시스템을 이용한 자율 주행 차량의 실시간 주행 방향 추정 (Traveling Direction Estimation of Autonomous Vehicle using Vision System)

  • 강준필;정길도
    • 대한전자공학회:학술대회논문집
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    • 대한전자공학회 2001년도 하계종합학술대회 논문집(5)
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    • pp.127-130
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    • 2001
  • In this paper, we describes a method of estimating traveling direction of a autonomous vehicle. For the development of autonomous vehicle, it is important to detect road lane and to reckon traveling direction. The object of a propose algorithm is to perform lane detection in real-time for standalone vision system. And we calculate efficent traveling direction to find steering angie for lateral control system. Therefore autonomous vehicle go forward the center of lane by adjusting the current steering angle using traveling direction.

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