In this section
@article{Markovic,
author = {Markovic, M and Karnal, H and Graimann, B and Dosen, S and Farina, D},
journal = {Journal of Neural Engineering},
title = {GLIMPSE: Google Glass interface for sensory feedback in myoelectric hand prostheses},
url = {http://hdl.handle.net/10044/1/44893},
}
TY - JOUR
AB - Objective:Providing sensory feedback to the user of the prosthesis is an important challenge. The common approach is to use tactile stimulation, which is easy to implement but requires training and has limited information bandwidth. In this study, we propose an alternative approach based onaugmented reality. Approach: We have developed the GLIMPSE, a Google Glassapplication which connects to the prosthesis via a Bluetooth interface and renders the prosthesis states (EMG signals, aperture, force and contact) using augmented reality (see-through display) and sound (bone conduction transducer). The interface was tested in healthy subjects that used the prosthesis with (FB group) and without (NFB group) feedback during a modified clothespins test that allowed to vary the difficulty of the task. The outcome measures were the number of unsuccessful trials, the time to accomplish the task, and the subjective ratings of the relevance of the feedback. Results: There was no difference in performance between FB and NFB groups in the case of a simple task (basic, same-colorclothespins test), but the feedback significantly improved the performance in a more complex task (pins of different resistances). Importantly, the GLIMPSE feedback did not increase the time to accomplish the task. Therefore, the supplemental feedback might be useful in the tasks which are more demanding, and thereby less likely to benefit from learning and feedforward control. The subjects integrated the supplemental feedback with the intrinsic sources (vision and muscle proprioception), developing their own idiosyncratic strategiesto accomplish the task. Significance: The present study demonstratesa novel self-contained, ready-to-deploy, wearable feedback interfacebased on widely used and readily available technology. The interface was successfully tested and was proven to be feasible and functionallybeneficial. The GLIMPSE can be used as a practical solution but also as a general and flexible instrument to
AU - Markovic,M
AU - Karnal,H
AU - Graimann,B
AU - Dosen,S
AU - Farina,D
SN - 1741-2560
TI - GLIMPSE: Google Glass interface for sensory feedback in myoelectric hand prostheses
T2 - Journal of Neural Engineering
UR - http://hdl.handle.net/10044/1/44893
ER -