• 제목/요약/키워드: fish robot

검색결과 57건 처리시간 0.035초

생체 모방 로봇 물고기의 설계와 제어에 관한 연구 (Design and Control of a Biomimetic Fish Robot)

  • 김영진;김승재;양경선;이정민;임충혁;김동환
    • 대한기계학회논문집A
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    • 제36권1호
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    • pp.1-7
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    • 2012
  • 이 논문에서는 최소의 배터리를 소비하여 물고기 로봇을 구동하고, 물고기와 같은 유연한 운동을 할 수 있는 생체 모방(biomimetic) 물고기 로봇의 설계, 제작, 제어에 관하여 제안 하였다. 두 개 모터를 적용하여 물고기와 같이 유연하게 움직일 수 있는 방법을 제시 하였다. 중성 부력을 유지하는 방법과 빠르게 잠영하고, 방향을 전환 하기 위한 방법을 제시 하였다. 로봇 물고기의 꼬리는 유연한 움직임을 만들기 위하여 폴리머 재질을 사용하여 만들었다. 꼬리 내부는 관절과 강선으로 구성된다. 로봇 물고기에 척추에 해당하는 우레탄 골격과 관절을 이루는 핀에 연결된 강선을 당겨 꼬리에 정현파 명령을 주어 물고기와 비슷한 유영을 할 수 있도록 하였으며, 부력 조절 장치를 설치하였으며, 이 부력 조절 장치를 이용하여 물고기 로봇이 상승, 하강을 할 수 있도록 하였다.

단일 구동기로 수중 이동이 가능한 수중 이동체 개발 (Development of Biomimetic Underwater Vehicle using Single Actuator)

  • 전명재;김동형;최현석;한창수
    • 한국정밀공학회지
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    • 제33권7호
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    • pp.571-577
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    • 2016
  • In this paper, we propose a novel propulsion method for a Biomimetic underwater robot, which is a bio-inspired approach. The proposed propulsion method mimics the pectoral fins of a real fish. Pectoral fins of real fish are able to propel and change direction. We designed the propulsion mechanism of 1 D.O.F. that has two functions (propel and change direction). We named this propulsion system 'Flipper'. The proposed propulsion method can control forward, pitch and yaw motion using the Flipper. We made an experimental underwater robot system and verified the proposed propulsion method. We measured its maximum speed and turning motion using an experimental underwater robot system. We also analyzed the thrust force from the maximum speed, using the thrust equation. Experimental results showed that our propulsion method enabled the thrust system of the biomimetic robot.

이동로봇의 자동충전을 위한 어안렌즈 카메라의 보정 및 인공표지의 검출 (Fish-eye camera calibration and artificial landmarks detection for the self-charging of a mobile robot)

  • 권오상
    • 센서학회지
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    • 제14권4호
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    • pp.278-285
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    • 2005
  • This paper describes techniques of camera calibration and artificial landmarks detection for the automatic charging of a mobile robot, equipped with a fish-eye camera in the direction of its operation for movement or surveillance purposes. For its identification from the surrounding environments, three landmarks employed with infrared LEDs, were installed at the charging station. When the robot reaches a certain point, a signal is sent to the LEDs for activation, which allows the robot to easily detect the landmarks using its vision camera. To eliminate the effects of the outside light interference during the process, a difference image was generated by comparing the two images taken when the LEDs are on and off respectively. A fish-eye lens was used for the vision camera of the robot but the wide-angle lens resulted in a significant image distortion. The radial lens distortion was corrected after linear perspective projection transformation based on the pin-hole model. In the experiment, the designed system showed sensing accuracy of ${\pm}10$ mm in position and ${\pm}1^{\circ}$ in orientation at the distance of 550 mm.

관람객과 상호 교감하는 전래동화-로봇의 수중무대 연출시스템 구현 (Realization of Fairy Tale - Robot Aquarium Display System with Visitor Interaction)

  • 신규재
    • 전기전자학회논문지
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    • 제22권4호
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    • pp.1180-1187
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    • 2018
  • 본 논문은 수족관에서 유사 3D 플로팅 홀로그램로 구현되는 전래동화를 배경으로 물고기 로봇과 관람객이 상호 교감하는 수중무대를 구현한다. 색상인식 알고리즘을 이용하여 관람객과 수중로봇의 개체 위치인식을 수행하였고, 관람객과 전래동화의 개체를 추종하기 위한 위치 추종 알고리즘을 제안하였다. 본 실험장치는 수중로봇 제어를 위한 물고기로봇, 카메라, KIOSK와 수중영상을 연출하기 위한 빔 프로젝트로 구성된다. 본 실험은 전래동화와 수중로봇을 기반으로 관람객과 상호 교감하는 수중무대 구현을 국립부산과학관에서 수행한 결과 성능이 우수함을 확인하였다.

Fish School Simulation for Khepera Robot

  • Kim, Kyung-Hwan;Keigo, Watanabe
    • 제어로봇시스템학회:학술대회논문집
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    • 제어로봇시스템학회 2001년도 ICCAS
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    • pp.168.4-168
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    • 2001
  • A great many species of fish congregate in schools, reducing the risk of being eaten by predators and giving one of the considerable survival advantages for fishes. Such a fish school is self-organized only due to individual behaviors for matching the speed and direction with the neighboring fishes. It is interesting to simulate these fish school by small robots, because we can understand how the group structure emerges from the interaction among neighboring individuals. We use a nice simulator for Khepera robot presented by Oliver Michel. It is shown that the Khepera simulator is easily applied to fish school due to the algorithm introduced by I Aoki. The simulator includes sensor noise so appropriately that the simulator can be transferred easily to the real environment. The results of simulation are given as follows: (1) The stability as a group is shown by plotting mean deviations from the center of group ...

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고체형 꼬리 지느러미로 오스트라키폼 유영을 하는 물고기 로봇의 패러미터 식별 및 성능 분석 (Experimental Parameter Identification and Performance Analysis of a Fish Robot with Ostraciiform Swimming Mode using Rigid Caudal Fins)

  • ;이기건;김병하;최정민;강태삼
    • 로봇학회논문지
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    • 제5권3호
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    • pp.197-208
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    • 2010
  • The ostraciiform swimming mode allows the simplest mechanical design and control for underwater vehicle swimming. Propulsion is achieved via the flapping of caudal fin without the body undulatory motion. In this research, the propulsion of underwater vehicles by ostraciiform swimming mode is explored experimentally using an ostraciiform fish robot and some rigid caudal fins. The effects of caudal fin flapping frequency and amplitude on the cruising performance are studied in particular. A theoretical model of propulsion using rigid caudal fin is proposed and identified with the experimental data. An experimental method to obtain the drag coefficient and the added mass of the fish robot is also proposed.

생체모방형 물고기 로봇 '익투스'의 동적 해석을 위한 DOE를 이용한 입력파라미터 최적화 (Optimization of Input Parameters by Using DOE for Dynamic Analysis of Bio-inspired Robotic Fish 'Ichthus')

  • 정창현;이상효;김경식;차유성;류영선
    • 제어로봇시스템학회논문지
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    • 제16권8호
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    • pp.799-803
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    • 2010
  • Recently, there is a rising interest on studying bio-inspired robotic fish because of real fish's great maneuverability and high energy efficiency. However, the researches about the robotic fish have not been done so much and there are still lots of problems to use them in the real environment such as in the river. This paper describes a bio-inspired robotic fish 'Ichthus' which is developed in KITECH and has 3 DOF propulsive mechanism. We develop the dynamic motion equation of 'Ichthus' in the underwater environment and analyze response characteristics of 'Ichthus' according to the input parameters of tail fin's amplitude and oscillation frequency. Then we propose control parameters at the various velocities. These parameters are useful to increase energy efficiency and it can be used when the fish robot moves in the real environment, for example, we can propose proper amplitude and oscillation frequency when the fish robot passes through the narrow space between obstacles.