• Title/Summary/Keyword: 바퀴로봇

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Two Feature Points Based Laser Scanner for Mobile Robot Navigation (레이저 센서에서 두 개의 특징점을 이용한 이동로봇의 항법)

  • Kim, Joo-Wan;Shim, Duk-Sun
    • Journal of Advanced Navigation Technology
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    • v.18 no.2
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    • pp.134-141
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    • 2014
  • Mobile robots use various sensors for navigation such as wheel encoder, vision sensor, sonar, and laser sensors. Dead reckoning is used with wheel encoder, resulting in the accumulation of positioning errors. For that reason wheel encoder can not be used alone. Too much information of vision sensors leads to an increase in the number of features and complexity of perception scheme. Also Sonar sensor is not suitable for positioning because of its poor accuracy. On the other hand, laser sensor provides accurate distance information relatively. In this paper we propose to extract the angular information from the distance information of laser range finder and use the Kalman filter that match the heading and distance of the laser range finder and those of wheel encoder. For laser scanner with one feature point error may increase much when the feature point is variant or jumping to a new feature point. To solve the problem, we propose to use two feature points and show that the positioning error can be reduced much.

고정밀 위치 측정이 가능한 카오스 로봇

  • Bae Yeong-Cheol
    • Proceedings of the Korea Inteligent Information System Society Conference
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    • 2006.06a
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    • pp.223-228
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    • 2006
  • 카오스 로봇의 하드웨어 구현에서 로봇의 자체 또는 바퀴가 정확하기 자기 위치를 인식하고 지지한 방향과 거리만큼 이동하는 것이 가장 중요하다. 본 논문에서는 고정밀 위치 측정이 가능한 카오스로봇을 제작하기 위하여 기존의 마그네틱 자이로 센서가 가지고있는 문제점인 주변의 자성의 영향으로 정확한 자기 위치를 확인할 수 없어 새로운 각 속도 센서를 사용하여 자기 위치 보정능력을 향상시키고 정확한 방향을 움직일 수 있는 카오스 로봇을 설계하였다.

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Balancing Control of a Two Wheeled Mobile Robot System (두 바퀴로 구동하는 이동로봇 시스템의 균형 제어)

  • Lee, Hyung-Jik;Jung, Seul
    • Journal of the Institute of Electronics Engineers of Korea SC
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    • v.48 no.6
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    • pp.1-7
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    • 2011
  • This paper presents implementation and control of a two wheeled mobile robot system which consists of two systems, an inverted pendulum system and a mobile robot system. Control purpose is to regulate its balancing and navigation. The balancing robot has advantages of one point turning and robust balancing against disturbances from the ground. Simulation studies of local and global control methods are performed. Since the robot is implemented to have a symmetrical structure, simple linear control algorithms are used for balancing and navigation. Low cost sensors such as gyro and tilt sensor are fused together to detect the inclined angle. Experimental studies of following desired circular trajectory are conducted.

Implementation of Educational Two-wheel Inverted Pendulum Robot using NXT Mindstorm (NXT Mindstorm을 이용한 교육용 이륜 도립진자 로봇 제작)

  • Jung, Bo Hwan
    • Journal of the Institute of Electronics and Information Engineers
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    • v.54 no.7
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    • pp.127-132
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    • 2017
  • In this paper, we propose a controller gain based on model based design and implement the two-wheel inverted pendulum type robot using NXT Lego and RobotC language. Two-wheel inverted pendulum robot consists of NXT mindstorm, servo DC motor with encoder, gyro sensor, and accelerometer sensor. We measurement wheel angle using bulit-in encoder and calculate wheel angle speed using moving average method. Gyro measures body angular velocity and accelerometer measures body pitch angle. We calculate body angle with complementary filter using gyro and accelerometer sensor. The control gain is a weighted value for wheel angle, wheel angular velocity, body pitch angle, and body pich angular velocity, respectively. We experiment and observe the effect of two-wheel inverted pendulum with respect to change of control gains.

A Study on the Performance Improvement of Wall Climbing Robot using Physical Variable Analysis (물리적 요인 분석을 통한 벽면 이동 로봇의 성능 개선 연구)

  • Lee, Ji-Bin;Jeong, Myeong-Su;Jeon, Jin-Seong;Baek, Jong-Hwan;Bong, Dae-Geun;Lee, Ji-Hyeon;Kim, Sang-Hoon
    • Annual Conference of KIPS
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    • 2015.04a
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    • pp.1071-1074
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    • 2015
  • 본 논문은 진공을 이용한 흡착방식과 바퀴형 이동방식을 이용하고 환경 탐지용 센서를 부착한 벽면 이동형 로봇의 물리적 해석을 통한 이동 성능 개선에 관한 연구로서, 대형 구조물의 안전 검사 및 위험한 시설물의 보수 작업등을 보조하기 위한 목적이 있다. 로봇의 무게에 따른 중력을 견딜 수 있는 강력한 진공흡착방식과 고성능 모터 제어에 의한 바퀴 이동방식을 혼합하고 효율적으로 평형을 유지 또는 제어하기 위하여 로봇에 미치는 다양한 힘과 모멘트를 분석하고 수식화 하였으며 기존의 수직이동 속도를 개선하기 위한 로봇의 물리적 변수를 추출하여 변수와 이동력간의 관계를 고찰하였다.

Dynamic Walking for a Biped Robot Using Fuzzy Model (퍼지 모델을 이용한 이족 로봇의 동적 보행 설계)

  • 장권규;주영훈;두평수;박현빈
    • Proceedings of the Korean Institute of Intelligent Systems Conference
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    • 2004.04a
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    • pp.107-110
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    • 2004
  • 이족 로봇은 기존의 바퀴로 움직이는 로봇에 비해 더 큰 이동성을 가지고 있다. 하지만 현실적으로는 쉽게 넘어지는 경향이 있어서, 보행시 동적인 안정성을 확보해야 할 필요성이 있다. 하지만 이를 위한 기구학적 해석이나 동역학적 해석이 너무 난해하다는 단점이 있다. 본 논문에서는, 이족 로봇의 동적 보행에 있어서 안정성을 확보하기 위해 퍼지 모델을 설계하고, 시뮬레이션을 실현함으로써 본 논문에서 제안된 보행 알고리즘이 실현가능한 것임을 확인한다.

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고정밀 위치 탐색을 위한 카오스 로봇에서의 방위각 센서 설계

  • Bae Yeong-Cheol
    • Proceedings of the Korea Inteligent Information System Society Conference
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    • 2006.06a
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    • pp.217-222
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    • 2006
  • 카오스 로봇의 하드웨어 구현에서 로봇의 자체 또는 바퀴가 정확하기 자기 위치를 인식하고 지시한 방향과 거리만큼 이동하는 것이 가장 중요하다. 본 논문에서는 고정밀 위치 측정이 가능한 카오스 로봇에서의 방위각 센서를 설계하기 위한 VF 컨버터와 방위각 센서를 설계하는 기법을 제시하였다.

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Development of a Legged Walking Robot Based on Jansen Kinetics (얀센 키네틱스를 기반으로 한 보행 로봇 개발)

  • Kim, Sun-Wook;Kim, Yeoun-Gyun;Jung, Hah-Min;Lee, Se-Han;Hwang, Seung-Gook;Kim, Dong-Hun
    • Journal of the Korean Institute of Intelligent Systems
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    • v.20 no.4
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    • pp.509-515
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    • 2010
  • In this paper, the mechanism that can walk efficiently in wet land or sand area is proposed. A vision camera is attached to the mechanism, which makes a kind of biologically inspired robot for coast guard. This visionary information enables the biologically inspired robot to react in peripheral environment by a soft-computing algorithm. In addition, the biologically inspired robot can achieve the mission appointed by a programmer connecting with outside, based on RF and Blue-tooth communication module. Therefore, the purpose of this research is the implementation of the biologically inspired robot that can operate most adaptively in sand and wet surface based on Theo Jansen mechanism.

Design of the Combination and Separation Structures of a Modular Robot (모듈러 로봇의 결합 및 분리 구조 설계)

  • Ryoo, In-Hwan;Lee, Bo-Hee;Khong, Jung-Shik
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.12 no.8
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    • pp.3626-3635
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    • 2011
  • The modular robots are a kind of system that was developed to overcome the limitation of the movement for the mobile robot with wheels or legs. In legs type mobile robot case, they are limited for velocity and balance during moving at the uneven terrain. In wheeled mobile robot case, they are also limited to overcome dump, stair and so on. The modular robots can overcome moving limitation because of their transforming ability. However, they are researched not only driving mechanism but also combination mechanism. In this paper we proposed four kinds of unique structure for the combination and separation and also its algorithm. The effectiveness of the structure is verified with building the real structure and taking experiments to the designed modular robot

A Fuzzy Control of Autonomous Mobile Robot for Obstacle Avoidance (장애물 회피를 위한 자율이동로봇의 퍼지제어)

  • Chae Moon-Seok;Jung Tae-Young;Kang Suk-Bum;Yang Tae-Kyu
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.10 no.9
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    • pp.1718-1726
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    • 2006
  • In this paper, we proposed a fuzzy controller and algorithm for efficiently obstacle avoidance in unknown space. The ultrasonic sensor is used for position and distance recognition of obstacle, and fuzzy controller is used for left and right wheels angular velocity control. The fuzzification is used singleton method and the control rule is each wheel forty-nine. The fuzzy inference is used simplified Mamdani's reasoning and defuzzification is used SCOG(Simplified Center Of Gravity). The computer simulation based on mobile robot modelling was performed for the capacity of fuzzy controller and the really applicable possibility revaluation of the proposed avoidance algorithm and fuzzy controller. As a result, mobile robot was exactly reached in target and it avoided obstacle efficiently.