Evaluating robustness of gait event detection based on machine learning and natural sensors
A real-time system for deriving timing control for functional electrical stimulation for foot-drop correction, using peripheral nerve activity as a sensor input, was tested for reliability to investigate the potential for clinical use. The system, which was previously reported on, was tested on a he...
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| Published in | IEEE transactions on neural systems and rehabilitation engineering Vol. 12; no. 1; pp. 81 - 88 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
IEEE
01.03.2004
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1534-4320 1558-0210 |
| DOI | 10.1109/TNSRE.2003.819890 |
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| Abstract | A real-time system for deriving timing control for functional electrical stimulation for foot-drop correction, using peripheral nerve activity as a sensor input, was tested for reliability to investigate the potential for clinical use. The system, which was previously reported on, was tested on a hemiplegic subject instrumented with a recording cuff electrode on the Sural nerve, and a stimulation cuff electrode on the Peroneal cuff. Implanted devices enabled recording and stimulation through telelinks. An input domain was derived from the recorded electroneurogram and fed to a detection algorithm based on an adaptive logic network for controlling the stimulation timing. The reliability was tested by letting the subject wear different foot wear and walk on different surfaces than when the training data was recorded. The detection system was also evaluated several months after training. The detection system proved able to successfully detect when walking with different footwear on varying surfaces up to 374 days after training, and thereby showed great potential for being clinically useful. |
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| AbstractList | A real-time system for deriving timing control for functional electrical stimulation for foot-drop correction, using peripheral nerve activity as a sensor input, was tested for reliability to investigate the potential for clinical use. The system, which was previously reported on, was tested on a hemiplegic subject instrumented with a recording cuff electrode on the Sural nerve, and a stimulation cuff electrode on the Peroneal cuff. Implanted devices enabled recording and stimulation through telelinks. An input domain was derived from the recorded electroneurogram and fed to a detection algorithm based on an adaptive logic network for controlling the stimulation timing. The reliability was tested by letting the subject wear different foot wear and walk on different surfaces than when the training data was recorded. The detection system was also evaluated several months after training. The detection system proved able to successfully detect when walking with different footwear on varying surfaces up to 374 days after training, and thereby showed great potential for being clinically useful. A real-time system for deriving timing control for functional electrical stimulation for foot-drop correction, using peripheral nerve activity as a sensor input, was tested for reliability to investigate the potential for clinical use. A real-time system for deriving timing control for functional electrical stimulation for foot-drop correction, using peripheral nerve activity as a sensor input, was tested for reliability to investigate the potential for clinical use. The system, which was previously reported on, was tested on a hemiplegic subject instrumented with a recording cuff electrode on the Sural nerve, and a stimulation cuff electrode on the Peroneal cuff. Implanted devices enabled recording and stimulation through telelinks. An input domain was derived from the recorded electroneurogram and fed to a detection algorithm based on an adaptive logic network for controlling the stimulation timing. The reliability was tested by letting the subject wear different foot wear and walk on different surfaces than when the training data was recorded. The detection system was also evaluated several months after training. The detection system proved able to successfully detect when walking with different footwear on varying surfaces up to 374 days after training, and thereby showed great potential for being clinically useful.A real-time system for deriving timing control for functional electrical stimulation for foot-drop correction, using peripheral nerve activity as a sensor input, was tested for reliability to investigate the potential for clinical use. The system, which was previously reported on, was tested on a hemiplegic subject instrumented with a recording cuff electrode on the Sural nerve, and a stimulation cuff electrode on the Peroneal cuff. Implanted devices enabled recording and stimulation through telelinks. An input domain was derived from the recorded electroneurogram and fed to a detection algorithm based on an adaptive logic network for controlling the stimulation timing. The reliability was tested by letting the subject wear different foot wear and walk on different surfaces than when the training data was recorded. The detection system was also evaluated several months after training. The detection system proved able to successfully detect when walking with different footwear on varying surfaces up to 374 days after training, and thereby showed great potential for being clinically useful. |
| Author | Sinkjaer, T. Haugland, M.K. Hansen, M. |
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| References | ref13 ref12 ref15 Hansen (ref14) 2001; 25 ref11 ref2 ref17 ref16 Haugland (ref6) ref19 ref18 ref8 ref7 ref9 ref4 ref3 Sinkjær (ref10) ref5 Liberson (ref1) 1961; 42 |
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| SubjectTerms | Action Potentials Adult Algorithms Artificial Intelligence Control systems Cuffs Electric Stimulation Therapy - methods Electrodes Electromyography - methods Event detection Female Gait Gait Disorders, Neurologic - diagnosis Gait Disorders, Neurologic - etiology Gait Disorders, Neurologic - physiopathology Gait Disorders, Neurologic - rehabilitation Hemiplegia - complications Hemiplegia - diagnosis Hemiplegia - physiopathology Hemiplegia - rehabilitation Humans Leg - innervation Leg - physiopathology Machine learning Muscle, Skeletal - innervation Muscle, Skeletal - physiopathology Neuromuscular stimulation Pattern Recognition, Automated Peroneal Nerve - physiopathology Proprioception Quality Control Real time systems Recording Reproducibility of Results Robustness Sensitivity and Specificity Sensor systems Sensors Shoes Stimulation Sural Nerve - physiopathology System testing Time measurements Timing Training Treatment Outcome Wear |
| Title | Evaluating robustness of gait event detection based on machine learning and natural sensors |
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