• Title/Summary/Keyword: 수중보행로봇

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Dynamic Tumble Stability Analysis of Seabed Walking Robot in Forward Incident Currents (전방 입사조류에 대한 해저보행로봇의 동적 전복안정성 해석)

  • Jun, Bong-Huan;Shim, Hyungwon;Yoo, Seongyeol
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.39 no.8
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    • pp.743-749
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    • 2015
  • In this paper, we describe the dynamic tumble-stability analysis of a seabed-walking robot named Crabster (CR200) in forward-incident currents. CR200 is designed to be operated in tidal-current conditions, and its body shape is also designed to minimize hydrodynamic resistances considering hydrodynamics. To analyze its tumble stability, we adopt the dynamic stability margin of a ground-legged robot and modify the definition of the margin to consider tidal-current effects. To analyze its dynamic tumble stability, we use the estimated hydrodynamic forces that act on the robot in various tidal-current conditions, and analyze the dynamic tumble-stability margin of the robot using the estimated results obtained for the various tidal-current conditions. From the analyses, we confirm the improved tumble stability of the robot according to the movement of the tumble axis caused by the supporting points of the legs.

강조류 악시계 환경 탐사용 다관절 해저로봇 크랩스터 (CR200)

  • Jeon, Bong-Hwan
    • ICROS
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    • v.19 no.3
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    • pp.17-28
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    • 2013
  • 조수간만의 차가 크고 지형이 복잡한 우리나라서 해안은 세계적으로도 보기 드문 강조류 환경이다. 잠수부의 안전을 위협하는 이러한 환경은 수중로봇의 접근도 쉽게 허락하지 않는다. 해저로봇 크랩스터는 이러한 특수한 환경을 조사하기 위해 고안된 수중보행로봇이다. 기존의 프로펠러 방식으로 달성하기 어려웠던 문제점을 크랩스터 로봇은 게나 가재와 같은 수중 생명체를 모방하여 극복하고자 했다. 크랩스터는 게나 가재의 기능을 모방함으로써 강조류 악시계 환경에서 유용한 두 가지 특징을 얻는다. 첫째는 해저에 밀착하여 자세를 제어함으로써 조류력을 이용하여 자세를 안정화시키면서 이동할 수 있다. 둘째는 조류 속에서 동요하지 않는 안정된 자세를 바탕으로 깨끗한 초음파 영상을 얻을 수 있다. 이는 강조류 환경에서 동반되는 부유물에 의한 악시계 환경을 극복할 수 있는 중요한 수단을 제공한다. 본 고에서는 이러한 개념에 따라 설계 개발된 크랩스터 CR200의 구성과 사양을 소개하고, 여기에 사용된 핵심기술을 살펴본다. 또한, 최근 수행된 CR200의 시험 결과에 대해서도 요약 소개한다.

Design of Static Gait Algorithm for Hexapod Subsea Walking Robot: Crabster (6 족 해저보행로봇을 위한 정적 보행 알고리즘 설계)

  • Yoo, Seong Yeol;Jun, Bong Huan;Shim, Hyungwon
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.38 no.9
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    • pp.989-997
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    • 2014
  • In this paper, we describe a design method for the static walking algorithm of a subsea hexapod robot called Crabster (CR200). To design the gait algorithms of a hexapod robot, we propose a design method that uses a gait schedule vector and leg pair vector to secure convenience and expandability. Several walking algorithms are designed that are capable of being applied to CR200 according to the underwater environment and explorative conditions. In addition, gait transition is freely performed between algorithms by applying common control parameters to them. The gait algorithms designed using the proposed method are simulated using MATLAB and validated against the results of experiments.

Bio-inspired Walking and Swimming Underwater Robot Designing Concept and Simulation by an Approximated Model for the robot (유영과 보행이 가능한 생체모방 수중 로봇의 설계개념과 근사모델을 활용한 모의실험)

  • Kim, Hee-Joong;Jun, Bong-Huan;Lee, Jihong
    • The Journal of Korea Robotics Society
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    • v.9 no.1
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    • pp.57-66
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    • 2014
  • This paper describes the design concept of a bio-inspired legged underwater and estimating its performance by implementing simulations. Especially the leg structure of an underwater organism, diving beetles, is fully adopted to our designing to employ its efficiency for swimming. To make it possible for the robot to both walk and swim, the transformable kinematic model according to applications of the leg is proposed. To aid in the robot development and estimate swimming performance of the robot in advance, an underwater simulator has been constructed and an approximated model based on the developing robot was set up in the simulation. Furthermore, previous work that we have done, the swimming locomotion produced by a swimming patten generator based on the control parameters, is briefly mentioned in the paper and adopted to the simulation for extensive studies such as path planning and control techniques. Through the results, we established the strategy of leg joints which make the robot swim in the three dimensional space to reach effective controls.

Evaluation of Applicability for 3D Scanning of Abandoned or Flooded Mine Sites Using Unmanned Mobility (무인 이동체를 이용한 폐광산 갱도 및 수몰 갱도의 3차원 형상화 위한 적용성 평가)

  • Soolo Kim;Gwan-in Bak;Sang-Wook Kim;Seung-han Baek
    • Tunnel and Underground Space
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    • v.34 no.1
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    • pp.1-14
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    • 2024
  • An image-reconstruction technology, involving the deployment of an unmanned mobility equipped with high-speed LiDAR (Light Detection And Ranging) has been proposed to reconstruct the shape of abandoned mine. Unmanned mobility operation is remarkably useful in abandoned mines fraught with operational difficulties including, but not limited to, obstacles, sludge, underwater and narrow tunnel with the diameter of 1.5 m or more. For cases of real abandoned mines, quadruped robots, quadcopter drones and underwater drones are respectively deployed on land, air, and water-filled sites. In addition to the advantage of scanning the abandoned mines with 2D solid-state lidar sensors, rotation of radiation at an inclination angle offers an increased efficiency for simultaneous reconstruction of mineshaft shapes and detecting obstacles. Sensor and robot posture were used for computing rotation matrices that helped compute geographical coordinates of the solid-state lidar data. Next, the quadruped robot scanned the actual site to reconstruct tunnel shape. Lastly, the optimal elements necessary to increase utility in actual fields were found and proposed.