• Title/Summary/Keyword: manual and automatic steering

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Manual and Automatic Steering System Using Pulley and Electrical Clutch for Manned and Unmanned Electric Vehicle (풀리 및 전자클러치를 이용한 유무인 전기자동차용 수동 및 자동조향장치)

  • Lee, Yong-Jun;Ryoo, Young-Jae
    • Journal of the Korean Institute of Intelligent Systems
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    • v.22 no.5
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    • pp.597-602
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    • 2012
  • In this paper, a manual and automatic steering system for electric vehicles capable of manned and unmanned driving is proposed. The automatic steering systems, EPS, MDPS, used in conventional engine based car includes the problem of handle lock phenomenon while driving of overloading, therefore it has a drawback to apply to manned and unmanned electric vehicles. By using electronic clutch and pulleys, the proposed manual and automatic steering mechanism was designed so that it is possible to convert from manual to automatic steering mode. To experiment the performance of the proposed steering system, we made an experimental setup of an electric vehicle. We confirmed that the proposed manual and automatic steering system was useful for manned and unmanned electric vehicles.

Implementation of an Auto-Steering System for Recreational Marine Crafts Using Android Platform and NMEA Network

  • Beirami, Mohammadamin;Lee, Hee Yong;Yu, Yung-Ho
    • Journal of Advanced Marine Engineering and Technology
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    • v.39 no.5
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    • pp.577-585
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    • 2015
  • This paper deals with development of an autopilot system for leisure yacht based on NMEA 2000 network and android platform. The developed system can operate both for manual steering and automatic navigation mode. In automatic steering mode, after manipulation of commands which are NMEA 0183 sentences by android platform, the developed system translates and sends the packets through NMEA 2000 network. Then the controller which is connected to NMEA 2000 network receives the commands and controls the boat's rudder system automatically. The automatic steering mode is achieved by cooperation of two controllers; one for controlling the rudder system, and the other for controlling the vessel's heading. To control the vessel's rudder and heading angle two PID controllers are developed with an adjustable dead-band gain. Also, in order to eliminate the steady-state error occurred by applying dead-band, an integral controller which specifically supervises the system's behavior inside the dead-band area is developed. In this paper, at the first stage, simulations are accomplished using computer in order to examine the feasibility of the proposed based on simulation results. In the next step, the system on a real hydraulic steering model is implemented and at the end the performance examination by implementing it on a real boat and doing test navigation is executed.

Position Control System of a Double-end Rod Hydraulic Cylinder under Variable Flow Rate and Load Conditions (유량 및 부하가 변하는 상태에서의 양로드 유압실린더의 위치제어시스템)

  • Kim, Dae-Cheol;Kim, Dong-Hwa;Lee, Jae-Kyu;Shin, Beom-Soo
    • Journal of Biosystems Engineering
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    • v.34 no.5
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    • pp.331-341
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    • 2009
  • A double-end rod hydraulic cylinder is widely used with a steering valve for the steering control system in large tractors. For the development of automatic steering controller, the feasibility of using a proportional control valve replacing the conventional manual steering valve to control the position of hydraulic steering cylinder was investigated in terms of the max. overshoot, the steady-state error and the rise time. A simulation model for the electrohydraulic steering system with load using AMESim package was developed to be valid so that the proper control algorithm could be chosen through the computer simulation. It could be concluded that the P-control algorithm was sufficient to control the electrohydraulic steering system, where the control frequency should be no greater than 20 Hz at the P-gain of 5. In particular, the performance of the developed steering controller was satisfactory even at the conditions of varying flow rates and loads.

Improved Design in Fishing Operation System for Small Inshore and Coastal Fishing Vessels -II -Design of a Remote Steering System- (소형 연근해 어선의 조업 시스템 개선에 관한 연구-II -원격 조타 시스템의 설계-)

  • 이대재
    • Journal of the Korean Society of Fisheries and Ocean Technology
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    • v.36 no.1
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    • pp.25-32
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    • 2000
  • A combination steering system was designed to provide the flexibility in controlling the steering wheel in fishing operations of the inshore and coastal fishing vessels. The designed steering system basically is consisted of three driving units, such as a electrically driven hydraulic pump unit with a solenoid control valve, a DC motor driven hydraulic pump unit and a manually driven hydraulic pump unit, and two controllers to provide remote steering on the deck, respectively. The steering torque was measured and analyzed to investigate the dynamic performance of the developed steering system. The steering system showed excellent linearity between the working pressure of cylinder and the torque of rudder post in case of increasing in rudder angle from $5^{\circ} to 35^{\circ}$ that is, the steering torque increased from $10.4 kgf{\cdot}m$ to $105.3 kgf{\cdot}m$ and then the working pressure of cylinder fluctuated from 6.3 kgf/cm super(2) to 16.4 kgf/cm super(2). The steering time of 3.2 sec in remote hydraulic steering by the on/off solenoid valve control was much faster than 13.2 sec in the manual steering by the helmsman and 11.6 sec in the electric steering by a DC motor, and then it was verified that operation of one unit does not affect other units in combination steering system in any way. Furthermore, the developed steering system can be remotely controlled in multiple stations of the deck during the fishing operation and the automatic pilot steering unit can be used to add hydraulic steering.

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Bimodal-tram Simulator using PXI Embedded Real-time Controllers (PXI embedded real-time controller를 이용한 Bimodal-tram Simulator)

  • Byun, Yeun-Sub;Kim, Young-Chol
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.59 no.3
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    • pp.645-650
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    • 2010
  • In this paper we present the Bimodal-tram simulator using the PXI embedded real-time controllers. The Bimodal-tram is developed in KRRI (Korea Railroad Research Institute). The vehicle can be automatically operated by navigation control system (NCS). For the automatic driving, the vehicle lanes will be marked with permanent magnets that are placed in the ground. The vehicle is controlled by NCS. NCS governs the manual mode and automatic mode driving. The simulator is designed by an identical conception with the real control condition. The dynamic motion of vehicle is simulated by the nonlinear dynamic model. The control computer calculates the control values. The signal interface is linked by CAN communication. The simulation is processed by real-time base. The test driver can see the graphic motion of vehicle and can operate the steering wheel, gas and brake pedal to control direction and velocity of vehicle during the simulation. At present, the simulator is only operated by manual mode. The automatic mode will be linked after the control algorithm is finished. We will use the simulator to develop the control algorithm in the automatic mode. This paper shows the simulator designed for Bimodal-tram using real-time based controller. The results of the test using the simulator are presented and discussed.

Development of an Autonomous Worker-Following Transport Vehicle (I) - Manufacture and indoor experiment of the prototype vehicle - (농작업자 자동 추종 운반차 개발(I) - 시작기 제작 및 실내성능시험 -)

  • 권기영;정성림;강창호;손재룡;한길수;정석현;장익주
    • Journal of Biosystems Engineering
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    • v.27 no.5
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    • pp.409-416
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    • 2002
  • This study was conducted to develop a vehicle, leading or following a worker at a certain distance to assist laborious transporting works in greenhouses. A prototype vehicle, which consisted of the rear driving, the front steering and the console units, was designed and tested in the ideal indoor conditions. Results of this study were summarized as following: 1. The driving unit was designed to travel at the speed ranges of 0.3∼0.8 m/sec depending on the operating modes with a maximum payload of 100 kg. 2. The console unit consisted of a main-board including a 80C196KC microprocessor and peripheral devices, a power-board and safety interlock. Worker-leading, and following modes were available in automatic and manual modes. 3. Steering was achieved by turning the steering motor against the sensed direction. Proper steering angles for correcting travel direction were determined as 5 and 9 degrees when sensing cultivation beds and plants, respectively.

Development of Autonomous Driving Electric Vehicle for Logistics with a Robotic Arm (로봇팔을 지닌 물류용 자율주행 전기차 플랫폼 개발)

  • Eui-Jung Jung;Sung Ho Park;Kwang Woo Jeon;Hyunseok Shin;Yunyong Choi
    • The Journal of Korea Robotics Society
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    • v.18 no.1
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    • pp.93-98
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    • 2023
  • In this paper, the development of an autonomous electric vehicle for logistics with a robotic arm is introduced. The manual driving electric vehicle was converted into an electric vehicle platform capable of autonomous driving. For autonomous driving, an encoder is installed on the driving wheels, and an electronic power steering system is applied for automatic steering. The electric vehicle is equipped with a lidar sensor, a depth camera, and an ultrasonic sensor to recognize the surrounding environment, create a map, and recognize the vehicle location. The odometry was calculated using the bicycle motion model, and the map was created using the SLAM algorithm. To estimate the location of the platform based on the generated map, AMCL algorithm using Lidar was applied. A user interface was developed to create and modify a waypoint in order to move a predetermined place according to the logistics process. An A-star-based global path was generated to move to the destination, and a DWA-based local path was generated to trace the global path. The autonomous electric vehicle developed in this paper was tested and its utility was verified in a warehouse.

Unmanned Driving of Robotic Vehicle Using Magnetic Maker (자계표식을 이용한 로봇형 차량의 무인주행)

  • Im, Dae-Yeong;Ryoo, Young-Jae
    • Journal of the Korean Institute of Intelligent Systems
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    • v.18 no.6
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    • pp.775-780
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    • 2008
  • In this paper, unmanned driving of robotic vehicle using magnetic marker is proposed. One of the most important component of autonomous vehicle is to detect the position of a magnetic marker on the road. In order to calculate the precise position of a magnet embedded on the road, the relation of magnetic field and a sensor is analyzed, and a new position sensing system using arrayed magnetic sensor is proposed. Also, the steering control system using a stepping motor is developed for driving by automatic mode as well as manual mode. For the verification of usability, the developed robotic vehicle is tested on magnetic road.

Design of Adaptive Inverse Control for Center Position Control of Steel-Strip in Continuous Annealing Line (연속소둔로에서 판중심 위치 제어를 위한 적응 역비례 제어기의 설계)

  • Kim, Young-Su;Jo, Sung-Eun;Lee, Young-Kow;Kim, Sang-Woo
    • Proceedings of the KIEE Conference
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    • 2004.11c
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    • pp.608-610
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    • 2004
  • In continuous annealing line (CAL), POSCO, the center position control (CPC) is an essential technique that renders the steel-strip to pass at the center of a roll in order to prevent the strip from skewing or breaking. The CPC algorithm currently installed on the steering roll in the heating section of CAL is to control the strip position by using the reverse phase of error from the center position, without considering the dynamics of strip horizontal movement. Such algorithm may, unfortunately, require a manual operation occasionally when the range of strip input becomes wide, causing the dynamics 0 be dominant. Other PID-type control is rarely used in automatic operation because the excess of response may occur when the discontinuous points such as welding joints pass through rolls. In this paper, we identify the CPC system by using off-line data and design a compensator for the excessive dynamics by using the adaptive inverse control. Simulation result depicts the improved reliability of the proposed CPC system.

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A Study on the Fire Hazard of Transportation Oil (수송기관용 오일의 화재위험성에 관한 연구)

  • Park, Young Ju;Hwang, Me Jung;Lee, Hae Pyeong;Lee, Seung Chul;Lee, Chang Hyun
    • Journal of the Korean Society of Safety
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    • v.29 no.3
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    • pp.114-120
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    • 2014
  • The purpose of this study is to conduct the study of the combustion and thermal characteristics through transportation oil for the analysis of fire hazard. Transportation oil breaks down into fuels such as diesel for civilian demands, gasoline, DF1(diesel for military), high sulfur diesel(for marine), kerosene and JP1(for aviation), and lubricants like brake fluid, power steering oil, engine oil, and automatic and manual transmission oil. The experiments of flash point, ignition point, flame duration time, heat release rate were carried out using TAG closed cup flash point tester(AFP761), Cleveland open cup auto flash point analyzer(AFP762), KRS-RG-9000 and Dual cone calorimeter. As a result, the fuel's ignition points were lower than lubricants, especially that of gasoline was not conducted as it has below zero one. Gasoline has the highest ignition point of about $600^{\circ}C$, while the other fuels showed $400{\sim}465^{\circ}C$. For flame duration time, lubricants had over 300 seconds, but fuels had less than 300 seconds except high sulfur diesel(350 seconds). Total heat release rate ranged $287{\sim}462kW/m^2$ for lubricants and gasoline showed the highest total heat release rate, $652kW/m^2$.