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MANIPULATION KINEMATICS ON DEXTEROUS HANDS CONSIDERING PURE ROLLING CONTACTS AS PASSIVE JOINTS
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作者 Yang Yang Tamio Arai 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2005年第3期361-365,共5页
The manipulation and constraint equations are established by considering the pure rolling motion in a dexterous hand as two passive joints. According to mapping relation among the motion of the system, the differentia... The manipulation and constraint equations are established by considering the pure rolling motion in a dexterous hand as two passive joints. According to mapping relation among the motion of the system, the differential kinematics and mobility are studied. The minimal structure for realizing the task motion of the object is obtained, and the conditions for dexterous manipulation are presented. Finally, some rolling manipulations are used as examples to demonstrate the applicability of approach proposed. 展开更多
关键词 Pure rolling Passive joints Differential kinematics dexterous hands
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Design and modeling for a kind of humanoid dexterous hand with elastic palm
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作者 魏博 蒋志宏 +5 位作者 肖涛 袁宝峰 李洪杰 李辉 董悫 刘士龙 《Journal of Beijing Institute of Technology》 EI CAS 2013年第4期470-476,共7页
With dexterous hands, robots can improve the work scope and work ability significantly. As palms of the existing multi-hand robots are made of steel plates that have small contact area, the robots cannot grab firmly. ... With dexterous hands, robots can improve the work scope and work ability significantly. As palms of the existing multi-hand robots are made of steel plates that have small contact area, the robots cannot grab firmly. In this study, a new five-fingered dexterous robot hand is developed. Having flexible palm with 17 degree of freedoms ( DOFs), the hand can grasp more stably and firm- ly. First, the forward kinematics and inverse kinematics of the fingers and the hand are calculated. Then, the connection between the force exerting on the end effectors and the torque exerting on the joint is set up, laying the foundation for the following control. Finally, through the analysis and sim- ulation of the position, velocity and acceleration, the trajectory planning has a better performance. 展开更多
关键词 dexterous hands flexible palm inverse kinematics MODELING
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Design and control of integrated pneumatic dexterous robot finger 被引量:8
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作者 王志恒 张立彬 +2 位作者 鲍官军 钱少明 杨庆华 《Journal of Central South University》 SCIE EI CAS 2011年第4期1105-1114,共10页
Based on flexible pneumatic actuator(FPA),bending joint and side-sway joint,a new kind of pneumatic dexterous robot finger was developed.The finger is equipped with one five-component force sensor and four contactless... Based on flexible pneumatic actuator(FPA),bending joint and side-sway joint,a new kind of pneumatic dexterous robot finger was developed.The finger is equipped with one five-component force sensor and four contactless magnetic rotary encoders.Mechanical parts and FPAs are integrated,which reduces the overall size of the finger.Driven by FPA directly,the joint output torque is more accurate and the friction and vibration can be effectively reduced.An improved adaptive genetic algorithm(IAGA) was adopted to solve the inverse kinematics problem of the redundant finger.The statics of the finger was analyzed and the relation between fingertip force and joint torque was built.Finally,the finger force/position control principle was introduced.Tracking experiments of fingertip force/position were carried out.The experimental results show that the fingertip position tracking error is within ±1 mm and the fingertip force tracking error is within ±0.4 N.It is also concluded from the theoretical and experimental results that the finger can be controlled and it has a good application prospect. 展开更多
关键词 pneumatic dexterous finger flexible pneumatic actuator (FPA) robot multi-fingered dexterous hand bending joint sidesway joint
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DESIGN OF A NOVEL DEXTEROUS ROBOT HAND 被引量:4
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作者 JiangLi LiuHong +3 位作者 XieZongwu JinMinghe GaoXiaohui HirzingerG 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2004年第3期360-363,共4页
In the robotic community more and more hands are developed. Based on theexperience of HIT Hand and DLR Hand II, a smaller and easier manufactured dexterous robot hand withmultisen-sory function and high integration is... In the robotic community more and more hands are developed. Based on theexperience of HIT Hand and DLR Hand II, a smaller and easier manufactured dexterous robot hand withmultisen-sory function and high integration is jointly developed. The prototype of the hand issuccessfully built. It has 4 fingers in total 13-DOFs (degree of freedom). Each finger has 3-DOFsand 4 joints, the last 2 joints are mechanically coupled by means of four-bar linkage mechanism. Italso has an additional DOF to realize motion of the thumb relative to the palm. The fingertip forcecan reach up to 10 N. Full integration of mechanical body, actuation system, multisensory system andelectronics is a significant feature. DSP based control system is implemented in PCI busarchitecture and the serial communication between the hand and DSP needs only 2 lines. 展开更多
关键词 dexterous robot hand MULTISENSORY INTEGRATION Serial communication
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Cartesian impedance control of dexterous robot hand 被引量:2
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作者 姜力 刘宏 蔡鹤皋 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2005年第3期239-244,共6页
Presents a novel compliant motion control for a robot hand using the Cartesian impedance approach based on fingertip force measurements. The fingertip can accurately track desired motion in free space and appear as me... Presents a novel compliant motion control for a robot hand using the Cartesian impedance approach based on fingertip force measurements. The fingertip can accurately track desired motion in free space and appear as mechanical impedance in constrained space. In the position based impedance control strategy, any switching mode in contact transition phase is not needed. The impedance parameters can be adjusted in a certain range according to various tasks. In this paper, the analysis of the finger’s kinematics and dynamics is given. Experimental results have shown the effectiveness of this control strategy. 展开更多
关键词 cartesian impedance control sliding mode control dexterous robot hand
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An Adaptive Hand Exoskeleton for Teleoperation System
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作者 Wei Wei Bangda Zhou +3 位作者 Bingfei Fan Mingyu Du Guanjun Bao Shibo Cai 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2023年第3期123-134,共12页
Teleoperation can assist people to complete various complex tasks in inaccessible or high-risk environments,in which a wearable hand exoskeleton is one of the key devices.Adequate adaptability would be available to en... Teleoperation can assist people to complete various complex tasks in inaccessible or high-risk environments,in which a wearable hand exoskeleton is one of the key devices.Adequate adaptability would be available to enable the master hand exoskeleton to capture the motion of human fingers and reproduce the contact force between the slave hand and its object.This paper presents a novel finger exoskeleton based on the cascading four-link closed-loop kinematic chain.Each finger has an independent closed-loop kinematic chain,and the angle sensors are used to obtain the finger motion including the flexion/extension and the adduction/abduction.The cable tension is changed by the servo motor to transmit the contact force to the fingers in real time.Based on the finger exoskeleton,an adaptive hand exoskeleton is consequently developed.In addition,the hand exoskeleton is tested in a master-slave system.The experiment results show that the adaptive hand exoskeleton can be worn without any mechanical constraints,and the slave hand can follow the motions of each human finger.The accuracy and the real-time capability of the force reproduction are validated.The proposed adaptive hand exoskeleton can be employed as the master hand to remotely control the humanoid five-fingered dexterous slave hand,thus,enabling the teleoperation system to complete complex dexterous manipulation tasks. 展开更多
关键词 Hand exoskeleton Humanoid dexterous hand TELEOPERATION Motion capture Force-reproduction
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Design and fabrication of a gecko-inspired surface for improving the grasping ability of a humanoid dexterous hand 被引量:1
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作者 JIANG ZhiHong SHEN MingHui +2 位作者 MA YiFan CHE JiangTao LI Hui 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2023年第3期784-792,共9页
Many studies have examined the design,fabrication and characteristics of gecko-inspired adhesives,but applied research on gecko-inspired surfaces in humanoid dexterous hands is relatively scarce.Here,a wedged slanted ... Many studies have examined the design,fabrication and characteristics of gecko-inspired adhesives,but applied research on gecko-inspired surfaces in humanoid dexterous hands is relatively scarce.Here,a wedged slanted structure with a curved substrate suitable for humanoid dexterous fingers was designed and manufactured via ultraprecision machining and replica molding.The adhesion and friction properties of the wedged slanted structure show obvious anisotropic characteristics in the gripping and releasing directions,and the influence of structural parameters and motion parameters on the adhesion and friction was systematically studied.The humanoid dexterous fingers with gecko-inspired surfaces greatly increased the grasping force limit(increase to 4.02 times)based on the grasping of measuring cups with different volumes of water and improved the grasping stability based on the picking up of smooth steel balls of different diameters.This study shows that this process,based on ultraprecision machining and replica molding,is a green,high-efficiency,and low-cost method to fabricate large-area biomimetic surfaces that has potential applications in dexterous humanoid hands to improve grasping ability,stability and adaptability. 展开更多
关键词 gecko-inspired surface curved substrate ultraprecision machining FRICTION humanoid dexterous hand
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Flexible Robotic Grasping Strategy with Constrained Region in Environment 被引量:3
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作者 Chao Ma Hong Qiao +1 位作者 Rui Li Xiao-Qing Li 《International Journal of Automation and computing》 EI CSCD 2017年第5期552-563,共12页
Grasping is a significant yet challenging task for the robots. In this paper, the grasping problem for a class of dexterous robotic hands is investigated based on the novel concept of constrained region in environment... Grasping is a significant yet challenging task for the robots. In this paper, the grasping problem for a class of dexterous robotic hands is investigated based on the novel concept of constrained region in environment, which is inspired by the grasping operations of the human beings. More precisely, constrained region in environment is formed by the environment, which integrates a bio-inspired co-sensing framework. By utilizing the concept of constrained region in environment, the grasping by robots can be effectively accomplished with relatively low-precision sensors. For the grasping of dexterous robotic hands, the attractive region in environment is first established by model primitives in the configuration space to generate offline grasping planning. Then, online dynamic adjustment is implemented by integrating the visual sensory and force sensory information, such that the uncertainty can be further eliminated and certain compliance can be obtained. In the end, an experimental example of BarrettHand is provided to show the effectiveness of our proposed grasping strategy based on constrained region in environment. 展开更多
关键词 Grasping strategy compliant grasping dexterous robotic hands attractive region in environment constrained region inenvironment.
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