Viet Anh Dung Cai scite author profile

Viet Anh Dung Cai

4Publications

23Citation Statements Received

49Citation Statements Given

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Affiliations

Eastern International University, Ho Chi Minh City University of Technology and Education, Institute for Intelligent Systems and Robotics

Publications

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Self-adjusting, isostatic exoskeleton for the human knee joint

Cai

Bidaud

Hayward

et al. 2011

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Abstract-A knee-joint exoskeleton design that can apply programmable torques to the articulation and that self-adjusts to its physiological movements is described. Self-adjustment means that the articular torque is automatically produced around the rotational axis of the joint. The requirements are first discussed and the conditions under which the system tracks the spatial relative movements of the limbs are given. If these conditions are met, the torque applied to the joint takes into account the possible relative movements of the limbs without introducing constraints. A prototype was built to demonstrate the applicability of these principles and preliminary tests were carried out to validate the design.

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Self-adjustment mechanisms and their application for orthosis design

Cai

Bidaud

Hayward³

et al. 2016

Meccanica

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Medical orthoses aim at guiding anatomical joints along their natural trajectories while preventing pathological movements, especially in case of trauma or injuries. The motions that take place between bone surfaces have complex kinematics. These so-called arthrokinematic motions exhibit axes that move both in translation and rotation. Traditionally, orthoses are carefully adjusted and positioned such that their kinematics approximate the arthrokinematic movements as closely as possible in order to protect the joint. Adjustment procedures are typically long and tedious. We suggest in this paper another approach. We propose mechanisms having intrinsic self-aligning properties. They are designed such that their main axis self-adjusts with respect to the joint's physiological axis during motion. When connected to a limb, their movement becomes homokinetic and they have the property of automatically minimizing internal stresses. The study is performed here in the planar case focusing on the most important component of the arthrokinematic motions of a knee joint.

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Experimental Evaluation of a Goniometer for the Identification of Anatomical Joint Motions

Cai

Bru²,

Bidaud³

et al. 2010

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This paper exposes the experimental evaluation of a new technique for the estimation of the instantaneous helical axis of movement of human anatomical joints. The measurement technique, using a six degrees of freedom spatial electro-goniometer, is tested onto a simple revolute joint and onto a subject's knee. A motion capture system with active optical markers is used at the same time in order to validate the measurement results.

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Control of a Self-adjusting Lower Limb Exoskeleton for Knee Assistance

Cai

Bidaud

Nguyen

et al. 2016

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Viet Anh Dung Cai

Self-adjusting, isostatic exoskeleton for the human knee joint

Self-adjustment mechanisms and their application for orthosis design

Experimental Evaluation of a Goniometer for the Identification of Anatomical Joint Motions

Control of a Self-adjusting Lower Limb Exoskeleton for Knee Assistance

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