Aiguo Ming scite author profile

Aiguo Ming

5Publications

234Citation Statements Received

18Citation Statements Given

How they've been cited

394

231

How they cite others

Affiliations

University of Electro-Communications, Uganda Episcopal Conference, Beijing Institute of Technology

Publications

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Adaptive Robust Motion/Force Control of Holonomic-Constrained Nonholonomic Mobile Manipulators

Ming

2007

IEEE Trans. Syst., Man, Cybern. B

169

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In this paper, adaptive robust force/motion control strategies are presented for mobile manipulators under both holonomic and nonholonomic constraints in the presence of uncertainties and disturbances. The proposed control is robust not only to parameter uncertainties such as mass variations but also to external ones such as disturbances. The stability of the closed-loop system and the boundedness of tracking errors are proved using Lyapunov stability synthesis. The proposed control strategies guarantee that the system motion converges to the desired manifold with prescribed performance and the bounded constraint force. Simulation results validate that the motion of the system converges to the desired trajectory, and the constraint force converges to the desired force.

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Highly sensitive sensor for detection of initial slip and its application in a multi-fingered robot hand

Teshigawara

Tsutsumi

Shimizu

et al. 2011

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Tactile sensors for slip detection are essential for implementing human-like gripping in a robot hand. In previous studies, we proposed flexible, thin and lightweight slip detection sensors utilizing the characteristics of pressuresensitive conductive rubber. This was achieved by using the high-frequency vibration component generated in the process of slipping of the gripped object in order to distinguish between slipping of the object and changes in the normal force. In this paper, we design a slip detection sensor for a multi-fingered robot hand and examine the influence of noise caused by the operation of such a hand. Finally, we describe an experiment focusing on the adjustment of the gripping force of a multifingered robot hand equipped with the developed sensors.

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Development of intelligent robot hand using proximity, contact and slip sensing

Hasegawa

Mizoguchi²,

Tadakuma

et al. 2010

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To achieve the skillful task like the human, many researchers have been working on robot hand. An interaction with vision and tactile information are indispensable for realization of skillful tasks. In the existing research, the method using a camera to get the vision information is often found. But, in the boundary area of a non-contact phase and a contact phase, there are problem that lack of sensor information because the influence of occlusion comes up to surface. We devise to introduce the proximity sensor in this area. And we call the robot hand which is equipped with proximity, tactile and slip sensor "intelligent robot hand".In this research, we show the constitution example of the intelligent robot hand and propose the method to realize Pick&Place as concrete task.

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Grasping Force Control of Multi-fingered Robot Hand based on Slip Detection Using Tactile Sensor

Gunji

Araki

Namiki

et al. 2007

Journal of the Robotics Society of Japan

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Bioinspired Control of Walking With Toe-Off, Heel-Strike, and Disturbance Rejection for a Biped Robot

Chen¹,

Zheng

Ming

2017

IEEE Trans. Ind. Electron.

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Aiguo Ming

Adaptive Robust Motion/Force Control of Holonomic-Constrained Nonholonomic Mobile Manipulators

Highly sensitive sensor for detection of initial slip and its application in a multi-fingered robot hand

Development of intelligent robot hand using proximity, contact and slip sensing

Grasping Force Control of Multi-fingered Robot Hand based on Slip Detection Using Tactile Sensor

Bioinspired Control of Walking With Toe-Off, Heel-Strike, and Disturbance Rejection for a Biped Robot

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