• Title/Summary/Keyword: deformable robot

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Motion Analysis and Dynamic Characteristics of the Concrete Floor Finishing Robot with Deformable Trowels (미장로봇의 운동해석과 동특성 분석)

  • Kim, Jin-Ho;Sin, Dong-Heon
    • Journal of the Korean Society for Precision Engineering
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    • v.18 no.8
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    • pp.193-200
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    • 2001
  • Recently, the concrete floor finishing robot, which can be used for flattening and smoothing the concrete floor, has been developed in Korea and Japan. While the previous research assumes that the concrete floor is deformable and the trowel is rigid in modeling the concrete floor finisher, we assume that the concrete floor is rigid and the trowel is deformable. Based on this assumption, we derived the equations of motion and found the convergent velocity of the concrete floor finisher using the computer simulation. From these results, we can understand the relationship between the motion characteristics and the design and control parameter of the robot.

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Design and Fabrication of Soft Deformable Wheel Robot using Composite Materials and Shape Memory Alloy Coil Spring Actuators (복합 재료와 형상 기억 합금 코일 스프링 구동기를 이용한 유연하게 변형 가능한 바퀴 로봇의 설계 및 제작)

  • Koh, Je-Sung;Lee, Dae-Young;Kim, Ji-Suk;Kim, Seung-Won;Cho, Kyu-Jin
    • Journal of the Korean Society for Precision Engineering
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    • v.30 no.1
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    • pp.47-52
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    • 2013
  • In order to operate a search and rescue robot in hazardous area, the robot requires high mobility and adaptable locomotion for moving in unpredictable environments. In this paper, we propose the deformable soft wheel robot that can produce three kinds of driving modes; caterpillar driving mode, normal wheel driving mode, legged-wheel driving mode. The robot changes its driving mode as it faces the various obstacles such as a small gap, stairs etc. Soft film and composite materials are used for fabrication of deformable wheel structure and Shape Memory Alloy (SMA) coil spring actuators are attached on the structure as an artificial muscle. Film lamination and an composite manufacturing process is introduced and the robot design is required to be modified and compromised to applying the manufacturing process. The prototype is developed and tested for verifying feasibility of the deformable wheel locomotion.

A Deformable Spherical Robot with Two Arms (두 팔을 가지는 변형 가능한 구형로봇)

  • Ahn, Sung-Su;Kim, Young-Min;Lee, Yun-Jung
    • Journal of Institute of Control, Robotics and Systems
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    • v.16 no.11
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    • pp.1060-1067
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    • 2010
  • In this paper, we present a new type of spherical robot having two arms. This robot, called KisBot, mechanically consists of three parts, a wheel-shaped body and two rotating semi-spheres. In side of each semi-sphere, there exists an arm which is designed based on slider-crank mechanism for space efficiency. KisBot has hybrid types of driving mode: rolling and wheeling. In the rolling mode, the robot folds its arms through inside of itself and uses them as pendulum, then the robot works like a pendulum-driven robot. In the wheeling mode, two arms are extended from inside of the robot and are contacted to the ground, then the robot works like a one-wheel car. The Robot arms can be used as a brake during rolling mode and add friction to the robot for climbing a slope during wheeling mode. We developed a remote controlled type robot for experiment. It contains two DC motors which are located in the center of each semi-sphere for main propulsion, two RC motors for each arm operation, speed controllers for each semi-sphere, batteries for main power source, and other mechanical components. Experiments for the rolling and wheeling mode verify the hybrid driving ability and efficiency of the our proposed spherical robot.

Physically-based Haptic Rendering of a Deformable Object Using Two Dimensional Visual Information for Teleoperation (원격조작을 위한 이차원 영상정보를 이용한 변형체의 물리적 모델 기반 햅틱 렌더링)

  • Kim, Jung-Sik;Kim, Jung
    • 한국HCI학회:학술대회논문집
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    • 2008.02c
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    • pp.19-24
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    • 2008
  • This paper presents a physically-based haptic rendering algorithm for a deformable object based on visual information about the intervention between a tool and a real object in a remote place. The physically-based model of a deformable object is created from the mechanical properties of the object and the captured image obtained with a CCD camera. When a slave system exerts manipulation tasks on a deformable object, the reaction force for haptic rendering is computed using boundary element method. Snakes algorithm is used to obtain the geometry information of a deformable object. The proposed haptic rendering algorithm can provide haptic feedback to a user without using a force transducer in a teleoperation system.

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A Study on Control of Stable Grasping Motion for Finger Robot (손가락 로봇의 안정 파지 운동 제어에 관한 연구)

  • Choi, Jong-Hwan
    • Journal of Advanced Marine Engineering and Technology
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    • v.30 no.3
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    • pp.428-437
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    • 2006
  • This paper attempts to derive and analyze the dynamic system of grasping a rigid object by means of two multi-degrees-of-freedom robot flngers with soft and deformable tips. It is shown firstly that a set of differential equation describing dynamics system of the manipulators and object together with geometric constraint of tight area-contacts is formulated by Lagrange's equation. It is shown secondly that the problems of controlling both the forces of pressing object and the rotation angle of the object under the geometric constraints are discussed. In this paper. the control method for dynamic stable grasping and enhancing dexterity in manipulating things is proposed. It is illustrated by computer simulation that the control system gives the performance improvement in the dynamic stable grasping of the dual fingers robot with soft tips.

A Study on Model and Control of Pinching Motion for Multi-Fingered Robot (다관절 핑거 로봇의 파지 운동 모델과 제어에 관한 연구)

  • Um H.;Choi J.H.;Kim Y.S.;Yang S.S.;Lee J.G.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.06a
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    • pp.1060-1067
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    • 2005
  • This paper attempts to derive and analyze the dynamic system of pinching a rigid object by means of two multi-degrees-of-freedom robot fingers with soft and deformable tips. It is shown firstly that a set of differential equation describing dynamics system of the manipulators and object together with geometric constraint of tight area-contacts is formulated by Lagrange's equation. It is shown secondly that the problems of controlling both the forces of pressing object and the rotation angle of the object under the geometric constraints are discussed. In this paper, the control method for dynamic stable grasping and enhancing dexterity in manipulating things is proposed. It is illustrated by computer simulation that the control system gives the performance improvement in the dynamic stable grasping of the dual fingers robot with soft tips.

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Research of Controlled Motion of Dual Fingers with Soft-Tips Grasping (Soft-Tip을 가진 Dual Finger의 파지운동제어에 관한 연구)

  • 박경택;양순용;한현용
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2000.11a
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    • pp.670-673
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    • 2000
  • This paper attempt analysis and computer simulation of dynamics of a set of dual multi-joint fingers with soft-deformable tips which are grasping. Firstly, a set of differential equation describing dynamics of the fingers and object together with geometric constraint of tight area-contacts is formulated by Euler-Lagrange's formalism. Secondly, problems of controlling both the internal force and the rotation angle of the grasped object under the constraints of area-contacts of tight area-contacts are discussed. The effect of geometric constraints of area-contacts on motion of the overall system is analyzed and a method of computer simulation for overall system of differential-algebraic equations is presented. Finally, simulation results are shown and the effects of geometric constraints of area-contact is discussed.

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Development of an Electro-hydraulic Soft Zipping Actuator with Self-sensing Mechanism (자가 변위 측정이 가능한 전기-유압식 소프트 지핑 구동기의 개발)

  • Lee, Dongyoung;Kwak, Bokeon;Bae, Joonbum
    • The Journal of Korea Robotics Society
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    • v.16 no.2
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    • pp.79-85
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    • 2021
  • Soft fluidic actuators (SFAs) are widely utilized in various areas such as wearable systems due to the inherent compliance which allows safe and flexible interaction. However, SFA-driven systems generally require a large pump, multiple valves and tubes, which hinders to develop a miniaturized system with small range of motion. Thus, a highly integrated soft actuator needs to be developed for implementing a compact SFA-driven system. In this study, we propose an electro-hydraulic soft zipping actuator that can be used as a miniature pump. This actuator exerts tactile force as a dielectric liquid contained inside the actuator pressurized its deformable part. In addition, the proposed actuator can estimate the internal dielectric liquid thickness by using its self-sensing function. Besides, the electrical characteristics and driving performance of the proposed system were verified through experiments.

Soft Actuator Development for Artificial Muscle (인공근육개발을 위한 소프트 액추에이터 연구)

  • Kang, Gyeongji;Song, Kahye
    • The Journal of Korea Robotics Society
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    • v.16 no.1
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    • pp.17-22
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    • 2021
  • Soft robot research has been actively conducted due to the advantages of soft materials that have less motion restrictions and higher energy efficiency compared to rigid robots. In particular, soft robots are being applied in more and more diverse fields, and the need for soft robots is increasing, especially when dealing with soft or deformable objects that rigid robots cannot perform. Various soft robots are being developed, and studies on artificial muscles with versatility, seamless integration with sensing, and self-healing capabilities are being proposed. In this study, we propose one of the most simple rectangular shaped HASEL (Hydraulically amplified self-healing electrostatic) actuators and compare the performance according to shape deformation such as the size or ratio of actuators and electrodes. Developing these actuators can be used in many ways for artificial muscles in soft robotics.