Optical myography: Detecting finger movements by looking at the forearm
Nissler C, Mouriki N, Castellini C (2016)
Publication Type: Journal article
Publication year: 2016
Journal
Book Volume: 10
Article Number: 00003
Journal Issue: APR
Abstract
One of the crucial problems found in the scientific community of assistive/rehabilita-Tion robotics nowadays is that of automatically detecting what a disabled subject (for instance, a hand amputee) wants to do, exactly when she wants to do it, and strictly for the time she wants to do it. This problem, commonly called "intent detection," has tradi-Tionally been tackled using surface electromyography, a technique which suffers from a number of drawbacks, including the changes in the signal induced by sweat and muscle fatigue. With the advent of realistic, physically plausible augmented-And virtual-reality environments for rehabilitation, this approach does not suffice anymore. In this paper, we explore a novel method to solve the problem, which we call Optical Myography (OMG). The idea is to visually inspect the human forearm (or stump) to reconstruct what fingers are moving and to what extent. In a psychophysical experiment involving ten intact subjects, we used visual fiducial markers (AprilTags) and a standard web camera to visualize the deformations of the surface of the forearm, which then were mapped to the intended finger motions. As ground truth, a visual stimulus was used, avoiding the need for finger sensors (force/position sensors, datagloves, etc.). Two machine-learning approaches, a linear and a non-linear one, were comparatively tested in settings of increasing realism. The results indicate an average error in the range of 0.05-0.22 (root mean square error normalized over the signal range), in line with similar results obtained with more mature techniques such as electromyography. If further successfully tested in the large, this approach could lead to vision-based intent detection of amputees, with the main application of letting such disabled persons dexterously and reliably interact in an augmented-/virtual-reality setup.
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Germany (DE)How to cite
APA:
Nissler, C., Mouriki, N., & Castellini, C. (2016). Optical myography: Detecting finger movements by looking at the forearm. Frontiers in Neurorobotics, 10(APR). https://dx.doi.org/10.3389/fnbot.2016.00003
MLA:
Nissler, Christian, Nikoleta Mouriki, and Claudio Castellini. "Optical myography: Detecting finger movements by looking at the forearm." Frontiers in Neurorobotics 10.APR (2016).
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