Multiday EMG-Based Classification of Hand Motions with Deep Learning Techniques

Muhammad Zia ur Rehman; Asim Waris; Syed Gilani; Mads Jochumsen; Imran Niazi; Mohsin Jamil; Dario Farina; Ernest Kamavuako

doi:10.3390/s18082497

Multiday EMG-Based Classification of Hand Motions with Deep Learning Techniques

Sensors ◽

10.3390/s18082497 ◽

2018 ◽

Vol 18 (8) ◽

pp. 2497 ◽

Cited By ~ 47

Author(s):

Muhammad Zia ur Rehman ◽

Asim Waris ◽

Syed Gilani ◽

Mads Jochumsen ◽

Imran Niazi ◽

...

Keyword(s):

Myoelectric Control ◽

Classification Error ◽

Linear Discriminant ◽

Upper Limb Prostheses ◽

Learning Techniques ◽

Significant Difference ◽

Improved Performance ◽

Long Term Performance ◽

Term Performance

Pattern recognition of electromyography (EMG) signals can potentially improve the performance of myoelectric control for upper limb prostheses with respect to current clinical approaches based on direct control. However, the choice of features for classification is challenging and impacts long-term performance. Here, we propose the use of EMG raw signals as direct inputs to deep networks with intrinsic feature extraction capabilities recorded over multiple days. Seven able-bodied subjects performed six active motions (plus rest), and EMG signals were recorded for 15 consecutive days with two sessions per day using the MYO armband (MYB, a wearable EMG sensor). The classification was performed by a convolutional neural network (CNN) with raw bipolar EMG samples as the inputs, and the performance was compared with linear discriminant analysis (LDA) and stacked sparse autoencoders with features (SSAE-f) and raw samples (SSAE-r) as inputs. CNN outperformed (lower classification error) both LDA and SSAE-r in the within-session, between sessions on same day, between the pair of days, and leave-out one-day evaluation (p < 0.001) analyses. However, no significant difference was found between CNN and SSAE-f. These results demonstrated that CNN significantly improved performance and increased robustness over time compared with standard LDA with associated handcrafted features. This data-driven features extraction approach may overcome the problem of the feature calibration and selection in myoelectric control.

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Long-Term Performance of Bridge Elements Using Integrated Deterioration Method Incorporating Elman Neural Network

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.204-208.1980 ◽

2012 ◽

Vol 204-208 ◽

pp. 1980-1987 ◽

Cited By ~ 2

Author(s):

Guo Ping Bu ◽

Jae Ho Lee ◽

Hong Guan ◽

Yew Chaye Loo ◽

Michael Blumenstein

Keyword(s):

State Of The Art ◽

Bridge Management ◽

Elman Neural Network ◽

Integrated Method ◽

Modeling Techniques ◽

Bridge Performance ◽

Improved Performance ◽

Long Term Performance ◽

Term Performance

Currently, probabilistic deterioration modeling techniques have been employed in most state-of-the-art Bridge Management Systems (BMSs) to predict future bridge condition ratings. As confirmed by many researchers, the reliability of the probabilistic deterioration models rely heavily on the sufficient amount of condition data together with their well-distributed historical deterioration patterns over time. However, inspection records are usually insufficient in most bridge agencies. As a result, a typical standalone probabilistic model (e.g. state-based or time-based model) is not promising for forecasting a reliable bridge long-term performance. To minimise the shortcomings of lacking condition data, an integrated method using a combination of state- and time-based techniques has recently been developed and has demonstrated an improved performance as compared to the standalone techniques. However, certain shortcomings still remain in the integrated method which necessities further improvement. In this study, the core component of the state-based modeling is replaced by an Elman Neural Networks (ENN). The integrated method incorporated with ENN is more effective in predicting long-term bridge performance as compared to the typical deterioration modeling techniques. As part of comprehensive case studies, this paper presents the deterioration prediction of 52 bridge elements with material types of Steel (S), Timber (T) and Other (O). These elements are selected from 94 bridges (totaling 4,115 inspection records). The enhanced reliability of the proposed integrated method incorporating ENN is confirmed.

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Analysing the Accuracy of Elite Amateur Golf Players during a Pre-tournament Wedge Test

The Open Sports Sciences Journal ◽

10.2174/1875399x02114010086 ◽

2021 ◽

Vol 14 (1) ◽

pp. 86-91

Author(s):

Matěj Brožka ◽

Tomáš Gryc ◽

Milan Kotrba ◽

František Zahálka

Keyword(s):

Error Rate ◽

Strong Relationship ◽

Impact Factors ◽

Percentage Error ◽

Ball Speed ◽

Significant Difference ◽

Direction Control ◽

Long Term Performance ◽

Term Performance

Background: Previous studies identified a medium/strong relationship between the accuracy of wedge play and performance of professional golf players. However, there is a lack of research studies investigating which distance in wedge play has the strongest relationship to performance. Objective: The aim of the study was to determine the accuracy with wedges of elite amateur golfers and find out the relationship between accuracy from different distances and short and long-term performance. Methods: Ten elite golf players assessed accuracy across distances (45 – 85 m) with Trackman in a pre-tournament wedge test and afterward attended a three-round tournament. Results: Percentage error rate decreases (19.0% to 8.4%) with increasing distance, in addition, a significant difference in percentage error rate between 45 m distance and 85 m distance (p = 0.02) significant relation between percentage error rate and short term/long term performance indicators at 45 and 55 m. Conclusion: Distance control was significantly more difficult (more variable) than direction control with wedges. Significant difference between distances indicates greater difficulty in controlling distance over shorter distances played with wedges. Results show higher importance of accuracy with wedges on performance in shorter (45 and 55 m) versus longer (65, 75 and 85 m) distances. Players performed the stroke more consistently in terms of controlling key impact factors at longer distances, especially in regards to the club head speed, which, together with the ball speed, is the main determinant of the carry distance.

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Evaluating Internal Model Strength and Performance of Myoelectric Prosthesis Control Strategies

10.1101/194225 ◽

2017 ◽

Author(s):

Ahmed W. Shehata ◽

Erik J. Scheme ◽

Jonathon W. Sensinger

Keyword(s):

Internal Model ◽

Control Strategies ◽

Model Development ◽

Myoelectric Control ◽

Myoelectric Prosthesis ◽

And Performance ◽

Prosthesis Control ◽

Long Term Performance ◽

Term Performance

AbstractOngoing developments in myoelectric prosthesis control have provided prosthesis users with an assortment of control strategies that vary in reliability and performance. Many studies have focused on improving performance by providing feedback to the user, but have overlooked the effect of this feedback on internal model development, which is key to improving long-term performance. In this work, the strength of internal models developed for two commonly used myoelectric control strategies: raw control with raw feedback (using a regression-based approach), and filtered control with filtered feedback (using a classifier-based approach), were evaluated using two psychometric measures: trial-by-trial adaptation and just-noticeable-difference. The performance of both strategies was also evaluated using a Schmidt’s style target acquisition task. Results obtained from 24 able-bodied subjects showed that although filtered control with filtered feedback had better short-term performance in path efficiency (p < 0.05), raw control with raw feedback resulted in stronger internal model development (p < 0.05), which may lead to better long-term performance. Despite inherent noise in the control signals of the regression controller, these findings suggest that rich feedback associated with regression control may be used to improve human understanding of the myoelectric control system.

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