On Muscle Selection for EMG Based Decoding of Dexterous, In-Hand Manipulation Motions
Kwon Y, Dwivedi A, McDaid AJ, Liarokapis M (2018)
Publication Type: Conference contribution
Publication year: 2018
Journal
Publisher: Institute of Electrical and Electronics Engineers Inc.
Book Volume: 2018-July
Pages Range: 1672-1675
Conference Proceedings Title: Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS
Event location: Honolulu, HI
ISBN: 9781538636466
DOI: 10.1109/EMBC.2018.8512624
Abstract
The field of Brain Machine Interfaces (BMI) has attracted an increased interest due to its multiple applications in the health and entertainment domains. A BMI enables a direct interface between the brain and machines and is capable of translating neuronal information into meaningful actions (e.g., Electromyography based control of a prosthetic hand). One of the biggest challenges in developing a surface Electromyography (sEMG) based interface is the selection of the right muscles for the execution of a desired task. In this work, we investigate optimal muscle selections for sEMG based decoding of dexterous in-hand manipulation motions. To do that, we use EMG signals derived from 14 muscle sites of interest (7 on the hand and 7 on the forearm) and an optical motion capture system that records the object motion. The regression problem is formulated using the Random Forests methodology that is based on decision trees. Regarding features selection, we use the following time-domain features: root mean square, waveform length and zero crossings. A 5-fold cross validation procedure is used for model assessment purposes and the importance values are calculated for each feature. This pilot study shows that the muscles of the hand contribute more than the muscles of the forearm to the execution of inhand manipulation tasks and that the myoelectric activations of the hand muscles provide better estimation accuracies for the decoding of manipulation motions. These outcomes suggest that the loss of the hand muscles in certain amputations limits the amputees' ability to perform a dexterous, EMG based control of a prosthesis in manipulation tasks. The results discussed can also be used for improving the efficiency and intuitiveness of EMG based interfaces for healthy subjects.
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APA:
Kwon, Y., Dwivedi, A., McDaid, A.J., & Liarokapis, M. (2018). On Muscle Selection for EMG Based Decoding of Dexterous, In-Hand Manipulation Motions. In Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS (pp. 1672-1675). Honolulu, HI, US: Institute of Electrical and Electronics Engineers Inc..
MLA:
Kwon, Yongje, et al. "On Muscle Selection for EMG Based Decoding of Dexterous, In-Hand Manipulation Motions." Proceedings of the 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBC 2018, Honolulu, HI Institute of Electrical and Electronics Engineers Inc., 2018. 1672-1675.
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