• Title/Summary/Keyword: 2-DOF actuator module

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Development of a Snake Robot with 2-DOF Actuator Modules (2 자유도 작동기 모듈로 구성된 뱀 로봇 개발)

  • Shin, Ho-Cheol;Jeong, Kyung-Min;Kwon, Jeong-Joo
    • Journal of Institute of Control, Robotics and Systems
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    • v.17 no.7
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    • pp.697-703
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    • 2011
  • This article describes a snake robot with 2-DOF actuator modules. The 2-DOF actuator modules make the snake robot move in the 3D space so that the snake robot can cross obstacles and rough terrain. Each 2-DOF actuator module is designed to have high torque output and an embedded controller. A cross bracket connecting the modules is designed be able to support the weight of two actuator modules. The developed snake robot shows 3-D motions such as side winding, standing/monitoring, and can climb in a narrow pipe with high torque modules. The snake robot moves fast with passive wheels in a plane while crossing obstacles.

Design and Control of Anthropomorphic Robot hand (인간형 다지 다관절 로봇 핸드의 개발)

  • Chun, Joo-Young;Choi, Byung-June;Chae, Han-Sang;Moon, Hyung-Pil;Choi, Hyouk-Ryeol
    • The Journal of Korea Robotics Society
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    • v.5 no.2
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    • pp.102-109
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    • 2010
  • In this study, an anthropomorphic robot Hand, called "SKKU Hand III" is presented. The hand has thirteen DOF(Degree-Of-Freedom) and is designed based on the skeletal structure of the human hand. Each finger module(except thumb module) has three DOF and four joints with a saddle joint mechanism which has two DOF at the base joint. Two distal joints of the finger module are mechanically coupled by a timing belt and pulleys. The thumb module is composed of a finger module and an additional actuator, which makes it possible to realize the opposition between the thumb and the other fingers. In addition, the palm DOF of the human hand is mimicked with a spatial link mechanism between the index finger and the thumb. Thus, it can grasp objects more stably and more strongly. For the modularization of the robotic hand all the driving circuits are embedded in the hand, and only the communication lines supporting CAN protocol with DC power cable are given as an interface. Therefore, it is possible to apply it to any robot system the interface. To validate the feasibility of the SKKU Hand III, a series of the representative grasp experiments such as power, precision, intermediate grasp etc. are carried out with the object around us and its operation is demonstrated.