Upper limb involuntary tremor reduction using cantilever beam TMDs

Gebai, Sarah; Cumunel, Gwendal; Hammoud, Mohammad; Forêt, Gilles; Roze, Emmanuel; Hainque, Élodie

doi:10.1177/10775463211051869

Cited by 2 publications

(1 citation statement)

References 20 publications

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“…Figure 7(b) demonstrates the advantage of multiple slots in tuned mass damper applications, as all six degrees of freedom in rotation and translation can be addressed simultaneously. For a fixed mass TMD system, three simultaneous TMD systems have been shown to improve the performance of tremor reduction by up to 89% in the wrist joint angular displacement for a cantilever-based model (Gebai et al, 2022).…”

Section: Methodsmentioning

confidence: 99%

Design and efficiency evaluation of a new wearable device for multi-degree suppression of hand pathological tremor

Yousef

Hafizh

Sassi

et al. 2023

Journal of Vibration and Control

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Sufferers of onset upper limb tremors find difficulty performing daily tasks due to rapid involuntary movements. Traditional treatments being offered help alleviate symptoms but are costly and can be invasive. Wearable technology advancements have introduced the applications of tremor suppression devices. A low-cost wearable bracelet was developed for sufferers of Parkinson’s disease and essential tremors to target rest and active tremors. Real-life measured tremor spectrums were used as input signals to design a dynamic vibration absorber. An innovative multiple-slot design allowed for multiple frequency suppression in the range of 3–8 Hz. A finite element analysis simulated the response of the upper limb with and without the bracelet. The results showed an overall suppression decreased tremors by up to 68% and targeted suppression decreased tremors by up to 98.2%.

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Section: Methodsmentioning

confidence: 99%

Design and efficiency evaluation of a new wearable device for multi-degree suppression of hand pathological tremor

Yousef

Hafizh

Sassi

et al. 2023

Journal of Vibration and Control

View full text Add to dashboard Cite

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Biomechanical Upper Limb Model for Postural Tremor Absorber Design

et al. 2022

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The current work promotes the use of non-invasive devices for reducing involuntary tremor of human upper limb. It concentrates on building up an upper limb model used to reflect the measured tremor signal and is suitable for the design of a passive vibration controller. A dynamic model of the upper limb is excited by the measured electromyography signal scaled to reach the wrist joint angular displacement measured by an inertial measurement unit for a patient with postural tremor. A passive tuned-mass-damper (TMD) placed on the hand is designed as a stainless-steel beam with a length of 91 mm and a cross-sectional diameter of 0.79 mm, holding a mass of 14.13 g. The damping ratio and mass position of the TMD are optimized numerically. The fundamental frequency of the TMD is derived and validated experimentally through measurements for different mass positions, with a relative error of 0.65%. The modal damping ratio of the beam is identified experimentally as 0.14% and increases to 0.26–0.46% after adding the mass at different positions. The optimized three TMDs reduce 97.4% of the critical amplitude of the power spectral density at the wrist joint.

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Upper limb involuntary tremor reduction using cantilever beam TMDs

Cited by 2 publications

References 20 publications

Design and efficiency evaluation of a new wearable device for multi-degree suppression of hand pathological tremor

Design and efficiency evaluation of a new wearable device for multi-degree suppression of hand pathological tremor

Biomechanical Upper Limb Model for Postural Tremor Absorber Design

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