• Title/Summary/Keyword: omni-directional robot

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Omni-directional Mobile Robot for 2D Translation and Rotation of a Puppet using Magnet (줄 인형의 2차원 이동 및 회전을 위한 자석기반 전 방향 로봇시스템)

  • Kim, Byeong-Yeol;Han, Young-Jun;Hahn, Hun-Soo
    • The Journal of Korea Robotics Society
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    • v.5 no.4
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    • pp.326-331
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    • 2010
  • Marionette controlling robot has a problem that generates interference in rotation and intersection, therefore, the research on the independent shifter to move freely on the stage is required. Connecting omni-directional mobile robot with marionette controlling robot can solve this problem. Omni-directional mobile robot makes itself rotate and translate in 2D plane freely. Magnetic device is used to connect the moving part with the control part of the robot to minimize the intereference generated by the movement of robot. When robot moves, it can move to all directions with the suitalbe setting of banlance power. The moment of inertia is minimized by dividing the robot to the upper and lower parts in the marionette performance stage. Rotation and interference problem of independent omni-wheel Robot can be solved by using the permanent magnet. The efficiency and safety of the marionette controlling robot is proved by the experiment.

Position Control Algorithm and Experimental Evaluation of an Omni-directional Mobile Robot (전방향 이동로봇 위치제어 알고리즘과 실험적 검증)

  • Chu, Baeksuk;Cho, Gangik;Sung, Young Whee
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.24 no.2
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    • pp.141-147
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    • 2015
  • In this study, a position control algorithm for an omni-directional mobile robot based on Mecanum wheels was introduced and experimentally evaluated. Multiple ultrasonic sensors were installed around the mobile robot to obtain position feedback. Using the distance of the robot from the wall, the position and orientation of the mobile robot were calculated. In accordance with the omni-directional velocity generation mechanism, the velocity kinematics between the Mecanum wheel and the mobile platform were determined. Based on this formulation, a simple and intuitive position control algorithm was suggested. To evaluate the control algorithm, a test bed composed of artificial walls was designed and implemented. While conventional control algorithms based on normal wheels require additional path planning for two-dimensional planar motion, the omni-directional mobile robot using distance sensors was able to directly follow target positions with the simple proposed position feedback algorithm.

Odometry and Navigation of an Omni-directional Mobile Robot with Active Caster Wheels (구동 캐스터 바퀴를 이용한 전방향 모바일 로봇의 오도메트리와 내비게이션)

  • Jung, Eui-Jung;Yi, Byung-Ju
    • Journal of Institute of Control, Robotics and Systems
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    • v.15 no.10
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    • pp.1014-1020
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    • 2009
  • This work deals with navigation of an omni-directional mobile robot with active caster wheels. Initially, the posture of the omni-directional mobile robot is calculated by using the odometry information. Next, the position accuracy of the mobile robot is measured through comparison of the odometry information and the external sensor measurement. Finally, for successful navigation of the mobile robot, a motion planning algorithm that employs kinematic redundancy resolution method is proposed. Through experiments for multiple obstacles and multiple moving obstacles, the feasibility of the proposed navigation algorithm was verified.

Azimuth Tracking Control of an Omni-Directional Mobile Robot(ODMR) Using a Magnetic Compass (마그네틱 콤파스 기반의 전 방향 로봇의 방위각 제어)

  • Lee, Jeong-Hyeong;Jung, Seul
    • Journal of Institute of Control, Robotics and Systems
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    • v.15 no.2
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    • pp.132-138
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    • 2009
  • In this paper, control of an omni-directional mobile robot is presented. Relying on encoder measurements to define the azimuth angle yields the dead-reckoned situation which the robot fails in localization. The azimuth angle error due to dead-reckoning is compensated and corrected by the magnetic compass sensor. Noise from the magnetic compass sensor has been filtered out. Kinematics and dynamics of the omni-directional mobile robot are derived based on the global coordinates and used for simulation studies. Experimental studies are also conducted to show the correction by the magnetic compass sensor.

Omni Camera Vision-Based Localization for Mobile Robots Navigation Using Omni-Directional Images (옴니 카메라의 전방향 영상을 이용한 이동 로봇의 위치 인식 시스템)

  • Kim, Jong-Rok;Lim, Mee-Seub;Lim, Joon-Hong
    • Journal of Institute of Control, Robotics and Systems
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    • v.17 no.3
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    • pp.206-210
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    • 2011
  • Vision-based robot localization is challenging due to the vast amount of visual information available, requiring extensive storage and processing time. To deal with these challenges, we propose the use of features extracted from omni-directional panoramic images and present a method for localization of a mobile robot equipped with an omni-directional camera. The core of the proposed scheme may be summarized as follows : First, we utilize an omni-directional camera which can capture instantaneous $360^{\circ}$ panoramic images around a robot. Second, Nodes around the robot are extracted by the correlation coefficients of Circular Horizontal Line between the landmark and the current captured image. Third, the robot position is determined from the locations by the proposed correlation-based landmark image matching. To accelerate computations, we have assigned the node candidates using color information and the correlation values are calculated based on Fast Fourier Transforms. Experiments show that the proposed method is effective in global localization of mobile robots and robust to lighting variations.

Real-time Omni-directional Distance Measurement with Active Panoramic Vision

  • Yi, Soo-Yeong;Choi, Byoung-Wook;Ahuja, Narendra
    • International Journal of Control, Automation, and Systems
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    • v.5 no.2
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    • pp.184-191
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    • 2007
  • Autonomous navigation of mobile robot requires a ranging system for measurement of distance to environmental objects. It is obvious that the wider and the faster distance measurement gives a mobile robot more freedom in trajectory planning and control. The active omni-directional ranging system proposed in this paper is capable of obtaining the distance for all 3600 directions in real-time because of the omni-directional mirror and the structured light. Distance computation including the sensitivity analysis and the experiments on the omni-directional ranging are presented to verify the effectiveness of the proposed system.

A Study on an Omni-directional Mobile Robot for Moving a Double-parked Car (이중 주차된 차량 이동용 전방향 이동 로봇에 대한 연구)

  • Yoon, Kyung Su;Lee, Myung Sub;Sung, Yount Whee
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.67 no.3
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    • pp.440-447
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    • 2018
  • Double parking is very common in a parking lot where there is not sufficient parking space. When we double-park a car, we leave transmission gear in neutral position and release the emergency brake so that the double-parked car can be moved just by pushing it. However, moving a double-parked car by pushing is very hard and dangerous especially for the old and the weak. So, we propose an omni-directional mobile robot for moving a double-parked car easily and safely. The developed omni-directional mobile robot moves a double-parked car by rotating a wheel of a double-parked car. It has two specially designed rollers to rotate a wheel of a double-parked car and is designed so that the height of the robot is very low to be able to enter beneath a double-parked car. It can move a double-parked car safely by detecting obstacles in the way with five ultrasonic sensors. We verified by several experiments that the developed omni-directional mobile robot can be used to move a double-parked car easily and safely.

Self-localization for Mobile Robot Navigation using an Active Omni-directional Range Sensor (전방향 능동 거리 센서를 이용한 이동로봇의 자기 위치 추정)

  • Joung, In-Soo;Cho, Hyung-Suck
    • Journal of the Korean Society for Precision Engineering
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    • v.16 no.1 s.94
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    • pp.253-264
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    • 1999
  • Most autonomous mobile robots view only things in front of them, and as a result, they may collide with objects moving from the side or behind. To overcome this problem. an Active Omni-directional Range Sensor System has been built that can obtain an omni-directional range data through the use of a laser conic plane and a conic mirror. Also, mobile robot has to know its current location and heading angle by itself as accurately as possible to successfully navigate in real environments. To achieve this capability, we propose a self-localization algorithm of a mobile robot using an active omni-directional range sensor in an unknown environment. The proposed algorithm estimates the current position and head angle of a mobile robot by a registration of the range data obtained at two positions, current and previous. To show the effectiveness of the proposed algorithm, a series of simulations was conducted and the results show that the proposed algorithm is very efficient, and can be utilized for self-localization of a mobile robot in an unknown environment.

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Teleoperation Control of Omni-directional Mobile Robot with Force Feedback (힘 반향 기법을 이용한 전방향 이동 로봇의 원격 제어)

  • Lee, Jeong-Hyeong;Lee, Hyung-Jik;Jung, Seul
    • Proceedings of the KIEE Conference
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    • 2007.04a
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    • pp.243-245
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    • 2007
  • This paper presents the implementation of teleoperation control of an omni-direction mobile robot. The master joystick robot has two degrees of freedom to control the movement of the slave mobile robot in the Cartesian space. In addition, the whole teleoperated control system is closed by the force feedback. The operator can feel the contact force as the slave robot makes contact with the environment. Experimental results show that the teleooerated control with force feedback has been successfully implemented.

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Tracking Control of 3-Wheels Omni-Directional Mobile Robot Using Fuzzy Azimuth Estimator (퍼지 방위각 추정기를 이용한 세 개의 전 방향 바퀴 구조의 이동로봇시스템의 개발)

  • Kim, Sang-Dae;Kim, Seung-Woo
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.11 no.10
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    • pp.3873-3879
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    • 2010
  • Home service robot are not working in the fixed task such as industrial robot, because they are together with human in the same indoor space, but have to do in much more flexible and various environments. Most of them are developed on the base of the wheel-base mobile robot in the same method as a vehicle robot for factory automation. In these days, for holonomic system characteristics, omni-directional wheels are used in the mobile robot. A holonomicrobot, using omni-directional wheels, is capable of driving in any direction. But trajectory control for omni-directional mobile robot is not easy. Especially, azimuth control which sensor uncertainty problem is included is much more difficult. This paper develops trajectory controller of 3-wheels omni-directional mobile robot using fuzzy azimuth estimator. A trajectory controller for an omni-directional mobile robot, which each motor is controlled by an individual PID law to follow the speed command from inverse kinematics, needs a precise sensing data of its azimuth and exact estimation of reference azimuth value. It has imprecision and uncertainty inherent to perception sensors for azimuth. In this paper, they are solved by using fuzzy logic inference which can be used straightforward to perform the control of the mobile robot by means of the fuzzy behavior-based scheme already existent in literature. Finally, the good performance of the developed mobile robot is confirmed through live tests of path control task.