Andualem Maereg Tadesse scite author profile

Andualem Maereg Tadesse

3Publications

33Citation Statements Received

27Citation Statements Given

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Affiliations

Liverpool Hope University, Manufacturing Technology Centre (United Kingdom), Coventry (United Kingdom)

Publications

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Low-cost wearable multichannel surface EMG acquisition for prosthetic hand control

Brunelli

Tadesse

Vodermayer

et al. 2015

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Abstract-Prosthetic hand control based on the acquisition and processing of surface electromyography signals (sEMG) is a well-established method that makes use of the electric potentials evoked by the physiological contraction processes of one or more muscles. Furthermore intelligent mobile medical devices are on the brink of introducing safe and highly sophisticated systems to help a broad patient community to regain a considerable amount of life quality. The major challenges which are inherent in such integrated system's design are mainly to be found in obtaining a compact system with a long mobile autonomy, capable of delivering the required signal requirements for EMG based prosthetic control with up to 32 simultaneous acquisition channels and -with an eye on a possible future exploitation as a medical device -a proper perspective on a low priced system. Therefore, according to these requirements we present a wireless, mobile platform for acquisition and communication of sEMG signals embedded into a complete mobile control system structure. This environment further includes a portable device such as a laptop providing the necessary computational power for the control and a commercially available robotic handprosthesis. Means of communication among those devices are based on the Bluetooth standard. We show, that the developed low cost mobile device can be used for proper prosthesis control and that the device can rely on a continuous operation for the usual daily life usage of a patient.

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A Wearable Exoskeleton for Hand Kinesthetic Feedback in Virtual Reality

Secco

Tadesse

2020

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Kinesthetic Feedback for Robot-Assisted Minimally Invasive Surgery (Da Vinci) with Two Fingers Exoskeleton

Secco

Tadesse

2020

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Minimally Invasive Surgery and, in particular, Robotic Minimally Invasive Surgery may benefit from the integration of Haptic device: here we propose a preliminary study on a two-finger exoskeleton for kinesthetic feedback of surgeon thumb and index finger while controlling a Da Vinci Robotic Device through its Master Tool Manipulator (MTM). Simulation of contact between rigid and soft objects with the Patient Side Manipulator (PSM) are integrated with Force Feedback on the MTM coupled with the exoskeleton.

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