• Title/Summary/Keyword: In-wheel actuator

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Development of a Virtual Driving Simulator Using 20-DOF Vehicle Model (20자유도 자동차모델을 이용한 가상 주행 시뮬레이터의 개발)

  • 김형내;김석일
    • Korean Journal of Computational Design and Engineering
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    • v.3 no.1
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    • pp.40-47
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    • 1998
  • Recently, the various driving simulator have been used widely to analyze the handling performance of vehicle and to verify the motion control algorithm of vehicle. In this study, a virtual driving simulator based on the 20-DOF vehicle model is realized to estimate the handling performance and stability of a 4WS (Four-wheel-steering) and/or 4n(Four-wheel-driving) vehicle. Especially the DC motor controlled 4WS actuator is modelled in order to reflect the effect of the responsiveness of actuator on the handling performance and stability. And the realized simulator can be applied to develope a real time simulation system for designing and testing the real vehicles.

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Development and Performance Test of a Spherical Reaction Wheel Actuator with Magnetic Levitation (자기부상을 적용한 구체 반작용휠 구동기 개발 및 성능 시험)

  • Kim, Dae-Kwan;Yoon, Hyung-Joo;Kim, Yong-Bok;Kang, Woo-Yong;Choi, Hong-Taek
    • Journal of Advanced Navigation Technology
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    • v.16 no.5
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    • pp.731-737
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    • 2012
  • In the present study, a feasibility study on an innovative satellite attitude control actuator is performed. The actuator is specially designed to generate the reaction torque in an arbitrary axis, so that a satellite attitude can be controlled by using itself. It consists of a spherical flywheel and electromagnets for levitation and rotation control of the ball. As the earlier study, a rotating performance test on the spherical actuator is conducted in a single rotating axis and vertical levitation condition. From the test results, it can be confirmed that the maximum speed and torque of the innovative device are 7,200rpm and 0.7Nm, respectively. Using a velocity-voltage characteristic curve of the spherical motor, an open-loop control (V/f constant control) is performed, and the test results show excellent control performance in acceleration and deceleration phases.

Identification of Input Force for Reaction Wheel of Satellite by Measured Action Force on Decelerating (감속 시의 고정부 작용력 측정을 이용한 반작용휠 계의 가진 입력 특성 규명)

  • Shin, Yun-Ho;Heo, Yong-Hwa;Oh, Shi-Hwan;Kim, Dae-Kwan;Kim, Kwang-Joon;Yong, Ki-Lyuk
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2009.10a
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    • pp.671-677
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    • 2009
  • A reaction wheel is commonly used, as an important actuator, to control the attitude of a satellite. Operation of the reaction wheel plays a role of an excitation source to loading equipment inside the satellite. As requirements for environmental vibration to manifest the performance of precision equipment are getting more stringent, the research for analysis or reduction of unwanted action force in high frequency range when operating the reaction wheel is necessary. In this paper, the procedure to extract input forces and damping of a rotor system of reaction wheel is suggested. The analysis for measured action forces of reaction wheel is accomplished and important higher harmonics of action forces are determined. The input forces and damping of the rotor system are, then, extracted by curve-fitting and a particular solution for input force.

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Identification of Input Force for Reaction Wheel of Satellite by Measured Action Forceon Decelerating (감속 시의 고정부 작용력 측정을 이용한 반작용휠 계의 가진 입력 특성 규명)

  • Shin, Yun-Ho;Heo, Yong-Hwa;Oh, Shi-Hwan;Kim, Dae-Kwan;Kim, Kwang-Joon;Yong, Ki-Lyuk
    • Transactions of the Korean Society for Noise and Vibration Engineering
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    • v.20 no.3
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    • pp.263-271
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    • 2010
  • A reaction wheel is commonly used, as an important actuator, to control the attitude of a satellite. Operation of the reaction wheel plays a role of an excitation source to loading equipment inside the satellite. As requirements for environmental vibration to manifest the performance of precision equipment are getting more stringent, the research for analysis or reduction of unwanted action force in high frequency range when operating the reaction wheel is necessary. In this paper, the procedure to extract input forces and damping of a rotor system of reaction wheel is suggested. The analysis for measured action forces of reaction wheel is accomplished and important higher harmonics of action forces are determined. The input forces and damping of the rotor system are, then, extracted by curve-fitting and a particular solution for input force.

High-Precision Surface Servo Methodology (고정밀 서피스 서보 방법론)

  • Jung, Kwangsuk;Park, Junkyu;Shim, Kibon
    • Journal of Institute of Convergence Technology
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    • v.3 no.1
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    • pp.1-8
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    • 2013
  • High-precision surface actuator, in which in-plane motion is realized by not two-dimensional actuator superposing linear actuators but integrated planar actuator, has been developed to cope with the severe target performance like precise motion with large envelope. It is very difficult to accomplish the performance with the traditional actuating principle. So, various methods have been tried to break through the problem. This paper discusses some meaningful trials performed in the Nano Measurement and Precision Motion Control Lab. of Korea National University of Transportation.

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DEVELOPMENT OF AUTOMATIC CLUTCH ACTUATOR FOR AUTOMATED MANUAL TRANSMISSIONS

  • MOON S. E.;KIM H. S.;HWANG S. H.
    • International Journal of Automotive Technology
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    • v.6 no.5
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    • pp.461-466
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    • 2005
  • With the growing traffic density and increasing comfort requirements, the automation of the drive train has gained importance in vehicles. The automatic clutch actuation relieves a driver especially in urban and stop-and-go traffic environments. In this paper, an electro-mechanical actuator for clutch-by-wire (CBW) system is implemented as the first stage for the development of automated manual transmissions. The prototype of the automatic clutch actuator is designed systematically, which is composed of the electric motor, worm and worm wheel, and crank mechanism. A test rig is developed to perform the basic function test for the automatic clutch actuation. The developed prototype is validated by the experimental results performed on the test rig.

A New Wheel Design for Miniaturized Terrain Adaptive Robot (험지 주행용 소형 로봇을 위한 바퀴의 설계)

  • Kim, Yoo Seok;Kim, Haan;Jung, Gwang Pil;Kim, Seong Han;Cho, Kyu Jin;Chu, Chong Nam
    • Journal of the Korean Society for Precision Engineering
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    • v.30 no.1
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    • pp.32-38
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    • 2013
  • Small mobile robots which use round wheels are suitable for driving on a flat surface, but it cannot climb the obstacle whose height is greater than the radius of wheels. As an alternative, legged-wheels have been proposed by many researchers due to its better climbing performance. However, driving and climbing performances have a trade-off relationship so that their driving performance should be sacrificed. In this study, in order to achieve both driving and climbing performances, a new transformable wheel was developed. The developed transformable wheel can have a round shape on a flat surface and change its shape into legged-wheel when it makes a contact with an obstacle. For design of the transformable wheel, the performance of legged-wheel was analyzed with respect to the number and curvature of the leg, and then the new transformable wheel was designed based on the analysis. Contrary to the existing transformable wheels that contain additional actuators for the transformation, the developed transformable wheel can be unfolded without any additional actuator. In this study, in order to validate the transformable wheel, a simple robot platform was fabricated. Consequently, it climbed the obstacle whose height is 2.6 times greater than the wheel radius.

A Study on Robust Control of Mobile Robot with Single wheel Driving Robot for Process Automation (공정 자동화를 위한 싱글 휠 드라이빙 모바일 로봇의 견실제어에 관한 연구)

  • Shin, Haeng-Bong;Cha, BO-Nam
    • Journal of the Korean Society of Industry Convergence
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    • v.19 no.2
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    • pp.81-87
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    • 2016
  • This paper presents a new approach to control of stable motion of single wheel driving robot system of a pitch that is controlled by an in-wheel motor and a roll that is controlled by a reaction wheel. This robot doesn'thave any actuator for a yaw axis control, which makes the derivation of the dynamics relatively simple. The Lagrange equations was applied to derive the dynamic equations of the one wheel driving robot to implement the dynamic speed control of the mobile robot. To achieve the real time speed control of the unicycle robot, the sliding mode control and optical regulator are utilized to prove the reliability while maintaining the desired speed tracking performance. In the roll controller, the sigmoid-function based robust controller has been adopted to reduce the vibration by the situation function. The optimal controller has been implemented for the pitch control to drive the unicycle robot to follow the desired velocity trajectory in real time using the state variables of pitch angle, angular velocity, angle and angular velocity of the driving wheel. The control performance of the control systems from a single dynamic model has been illustrated by the real experiments.

Implementation of Roll Control System for Passenger Car (승용차의 차량 롤 제어를 위한 시스템 구현)

  • 장주섭;이상호
    • Transactions of the Korean Society of Automotive Engineers
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    • v.5 no.5
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    • pp.20-26
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    • 1997
  • A System for reducing vehicle body roll by active control is developed. The stabilizer bar with hydraulic rotary actuator produces anti-roll moment which suppresses roll tendency. This reduction of roll improves the driving safety as well as the ride comfort. Vehicle test data shows considerable reduction of roll angle during steady-state turning. Also improvement of ride comfort is achieved by making the actuator freely rotatable, i.e. by connecting all chambers of actuator in normal driving conditions. A control algorithm using steering wheel angle and vehicle speed signal as input valve is applied. It is compared with signal of the G-sensor.

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Estimation of Tire Braking Force and Road Friction Coefficient Between Tire and Road Surface For Wheel Slip Control (휠 슬립 제어를 위한 타이어와 노면 사이의 타이어 제동력 및 노면 마찰계수 추정)

  • Hong, Dae-Gun;Huh, Kun-Soo;Yoon, Pal-Joo;Hwang, In-Yong
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.28 no.5
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    • pp.517-523
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    • 2004
  • Recently, wheel slip controllers with controlling the wheel slip directly has been studied using the brake-by-wire actuator. The wheel slip controller is able to control the braking force more accurately and can be adapted to various different vehicles more easily than the conventional ABS systems. The wheel slip controller requires the information about the tire braking force and road condition in order to achieve the control performance. In this paper, the tire braking forces are estimated considering the variation of the friction between brake pad and disk due to aging of the brake, moisture on the contact area or heating. In addition, the road friction coefficient is estimated without using tire models. The estimated performance of tire braking forces and the road friction coefficient is evaluated in simulations.