Proceedings of the first workshop on Peripheral Machine Interfaces: going beyond traditional surface electromyography

Castellini, Claudio; Artemiadis, Panagiotis; Wininger, Michael; Ajoudani, Arash; Alimusaj, Merkur; Bicchi, Antonio; Caputo, Barbara; Craelius, William; Došen, Strahinja; Englehart, Kevin; Farina, Dario; Gijsberts, Arjan; Godfrey, Sasha Blue; Hargrove, Levi J.; Ison, Mark; Kuiken, Todd A.; Marković, Marko; Pilarski, Patrick M.; Rupp, Rüdiger; Scheme, Erik

doi:10.3389/fnbot.2014.00022

Cited by 178 publications

(183 citation statements)

References 88 publications

(131 reference statements)

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“…Researchers have tried to address this issue by increasing the number of sensors (Tenore et al, 2007), although it is known that four to six channels are acceptable for pattern detection (Young et al, 2012), and/or to find their optimal placement given the characteristics of the stump (Castellini and van der Smagt, 2009; Fang et al, 2015); several pattern recognition algorithms have been studied, such as artificial neural networks (Baspinar et al, 2013), linear discriminant analysis (Khushaba et al, 2009) and non-linear incremental learning (Gijsberts et al, 2014). However, one of the major drawbacks of sEMG signals is their variable nature: sweat, electrode shifts, motion artifacts, ambient noise, cross-talk among deep adjacent muscles and muscular fatigue can crucially affect them (Oskoei and Hu, 2007; Cram and Kasman, 2010; Merletti et al, 2011a; Castellini et al, 2014). In general, any change in the muscle configuration during and after the training of the machine learning algorithm (e.g., the position of the limb and the body and the weights to be lifted during grasping and carrying) must be taken into account (Scheme et al, 2010; Cipriani et al, 2011b).…”

Section: Introductionmentioning

confidence: 99%

Assessment of a Wearable Force- and Electromyography Device and Comparison of the Related Signals for Myocontrol

et al. 2016

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In the frame of assistive robotics, multi-finger prosthetic hand/wrists have recently appeared, offering an increasing level of dexterity; however, in practice their control is limited to a few hand grips and still unreliable, with the effect that pattern recognition has not yet appeared in the clinical environment. According to the scientific community, one of the keys to improve the situation is multi-modal sensing, i.e., using diverse sensor modalities to interpret the subject's intent and improve the reliability and safety of the control system in daily life activities. In this work, we first describe and test a novel wireless, wearable force- and electromyography device; through an experiment conducted on ten intact subjects, we then compare the obtained signals both qualitatively and quantitatively, highlighting their advantages and disadvantages. Our results indicate that force-myography yields signals which are more stable across time during whenever a pattern is held, than those obtained by electromyography. We speculate that fusion of the two modalities might be advantageous to improve the reliability of myocontrol in the near future.

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Section: Introductionmentioning

confidence: 99%

Assessment of a Wearable Force- and Electromyography Device and Comparison of the Related Signals for Myocontrol

et al. 2016

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“…Traditional mode-switching methods established on EMG amplitude only give very limited functions, discrete robot-like finger movements, and unintuitive control feelings. By introducing the pattern recognition method [64], a large progress has been made; however, there is still a big gap between the research and its real application [65,66]. Intrinsic timing-varying characters of the EMG signals, environmental change (electromechanical status, temperature, moisture, sweating, etc.)…”

Section: Challenges and Future Workmentioning

confidence: 99%

On the development of intrinsically-actuated, multisensory dexterous robotic hands

et al. 2016

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Restoring human hand function by mechatronic means is very challenging in robotics research. In this paper, we first make a brief review on the development of dexterous robotic/prosthetic hands, and then detail our design philosophy of several robot hands. We make a concentration on a type of intrinsically-actuated robot hands, wherein the driving, transmission, and control elements are totally embedded in the hand. According to different application scenarios, we develop robot hands in two parallel lines, dexterous robotic hand and anthropomorphic prosthetic hand. In both, the hand's actuation, sensing, and control subsystems are highly integrated and modularized. This feature endows our robot hands with compact appearances, simple integration, and large flexibilities. At last, we give some perspectives on the future development of dexterous hands from the aspects of structure, functionality, and control strategies.

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“…al. [3] showed that EMG control is still imperfect because EMG signals are stochastic and have issues with robustness. These issues manifest themselves in classification errors when selecting between multiple grasps in real-world settings.…”

Section: Introductionmentioning

confidence: 99%

Automatic grasp selection using a camera in a hand prosthesis

DeGol

Akhtar

Manja

2016

2016 38th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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In this paper, we demonstrate how automatic grasp selection can be achieved by placing a camera in the palm of a prosthetic hand and training a convolutional neural network on images of objects with corresponding grasp labels. Our labeled dataset is built from common graspable objects curated from the ImageNet dataset and from images captured from our own camera that is placed in the hand. We achieve a grasp classification accuracy of 93.2% and show through real-time grasp selection that using a camera to augment current electromyography controlled prosthetic hands may be useful.

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Proceedings of the first workshop on Peripheral Machine Interfaces: going beyond traditional surface electromyography

Cited by 178 publications

References 88 publications

Assessment of a Wearable Force- and Electromyography Device and Comparison of the Related Signals for Myocontrol

Assessment of a Wearable Force- and Electromyography Device and Comparison of the Related Signals for Myocontrol

On the development of intrinsically-actuated, multisensory dexterous robotic hands

Automatic grasp selection using a camera in a hand prosthesis

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