Hsien-Yung Huang scite author profile

Hsien-Yung Huang

5Publications

33Citation Statements Received

87Citation Statements Given

How they've been cited

How they cite others

117

Affiliations

Imperial College London, National Tsing Hua University

Publications

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The Influence of Posture, Applied Force and Perturbation Direction on Hip Joint Viscoelasticity

Huang

Arami

Farkhatdinov

et al. 2020

IEEE Trans. Neural Syst. Rehabil. Eng.

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Limb viscoelasticity is a critical factor used to regulate the interaction with the environment. It plays a key role in modelling human sensorimotor control, and can be used to assess the condition of healthy and neurologically affected individuals. This paper reports the estimation of hip joint viscoelasticity during voluntary force control using a novel device that applies a leg displacement without constraining the hip joint. The influence of hip angle, applied limb force and perturbation direction on the stiffness values was studied in ten subjects. No difference was detected in the hip joint stiffness between the dominant and non-dominant legs, but a small dependency was observed on the perturbation direction. Both hip stiffness and viscosity increased monotonically with the applied force magnitude, with posture to being observed to have a slight influence. These results are in line with previous measurements carried out on upper limbs, and can be used as a baseline for lower limb movement simulation and further neuromechanical investigations.

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Cable-Driven Robotic Interface for Lower Limb Neuromechanics Identification

Huang¹,

Farkhatdinov

Arami

et al. 2021

IEEE Trans. Biomed. Eng.

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This paper presents a versatile cable-driven robotic interface to investigate the single-joint joint neuromechanics of the hip, knee and ankle in the sagittal plane. This endpoint-based interface offers highly dynamic interaction and accurate position control (as is typically required for neuromechanics identification), and provides measurements of position, interaction force and electromyography (EMG) of leg muscles. It can be used with the subject upright, corresponding to a natural posture during walking or standing, and does not impose kinematic constraints on a joint, in contrast to existing interfaces. Mechanical evaluations demonstrated that the interface yields a rigidity above 500 N/m with low viscosity. Tests with a rigid dummy leg and linear springs show that it can identify the mechanical impedance of a limb accurately. A smooth perturbation is developed and tested with a human subject, which can be used to estimate the hip neuromechanics.

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Toward the Gait Analysis and Control of a Powered Lower Limb Orthosis in Ascending and Descending Stairs

Huang

Chen

Huang

2014

Procedia Engineering

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Energetic Passivity Decoding of Human Hip Joint for Physical Human-Robot Interaction

Atashzar

Huang

Duca

et al. 2020

IEEE Robot. Autom. Lett.

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Modelling Neuromuscular Function of SCI Patients in Balancing

Huang

Farkhatdinov

Arami

et al. 2016

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Hsien-Yung Huang

The Influence of Posture, Applied Force and Perturbation Direction on Hip Joint Viscoelasticity

Cable-Driven Robotic Interface for Lower Limb Neuromechanics Identification

Toward the Gait Analysis and Control of a Powered Lower Limb Orthosis in Ascending and Descending Stairs

Energetic Passivity Decoding of Human Hip Joint for Physical Human-Robot Interaction

Modelling Neuromuscular Function of SCI Patients in Balancing

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