Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
about
Predictive simulation generates human adaptations during loaded and inclined walkingAnalysis of statistical and standard algorithms for detecting muscle onset with surface electromyography.Wiener filtering of surface EMG with a priori SNR estimation toward myoelectric control for neurological injury patients.Robust muscle activity onset detection using an unsupervised electromyogram learning framework.A comparison of two procedures for verbal response time fractionation.Effects of predictability of load magnitude on the response of the Flexor Digitorum Superficialis to a sudden fingers extension.Random Forest-Based Recognition of Isolated Sign Language Subwords Using Data from Accelerometers and Surface Electromyographic SensorsShared bimanual tasks elicit bimanual reflexes during movement.A novel technique for muscle onset detection using surface EMG signals without removal of ECG artifacts.Botulinum Toxin (BT) injection improves voluntary motor control in selected patients with post-stroke spasticityTrunk and hip muscle activation patterns are different during walking in young children with and without cerebral palsy.Teager-Kaiser energy operator signal conditioning improves EMG onset detectionSitting and standing intention can be decoded from scalp EEG recorded prior to movement executionTiming of muscle response to a sudden leg perturbation: comparison between adolescents and adults with Down syndromeA Novel Phonology- and Radical-Coded Chinese Sign Language Recognition Framework Using Accelerometer and Surface Electromyography SensorsAnticipatory and compensatory postural adjustments in conditions of body asymmetry induced by holding an object.Older adults utilize less efficient postural control when performing pushing task.Sample entropy analysis of surface EMG for improved muscle activity onset detection against spurious background spikes.Teager-Kaiser Operator improves the accuracy of EMG onset detection independent of signal-to-noise ratio.Use of the Teager-Kaiser Energy operator for muscle activity detection in children.Between-day reliability of electromechanical delay of selected neck muscles during performance of maximal isometric efforts.The Identification and Tracking of Uterine Contractions Using Template Based Cross-Correlation.Control of grip force and vertical posture while holding an object and being perturbed.Neuromechanical adaptations during a robotic powered exoskeleton assisted walking session.Why does picture naming take longer than word reading? The contribution of articulatory processes.Improving the Robustness of Electromyogram-Pattern Recognition for Prosthetic Control by a Postprocessing StrategyA novel approach for automatic visualization and activation detection of evoked potentials induced by epidural spinal cord stimulation in individuals with spinal cord injury.The time course of visual influences in letter recognition.Rate of Torque Development and Feedforward Control of the Hip and Knee Extensors: Gender Differences.Control of vertical posture while standing on a sliding board and pushing an object.Role of point of application of perturbation in control of vertical posture.Standing on a sliding board affects generation of anticipatory and compensatory postural adjustments.Long-term facilitation of nociceptive withdrawal reflexes following low-frequency conditioning electrical stimulation: a new model for central sensitization in humans.Synergistic Activities of Abdominal Muscles Are Required for Efficient Micturition in Anesthetized Female Mice.An Individualized, Perception-Based Protocol to Investigate Human Physiological Responses to Cooling.Stand-Alone Wearable System for Ubiquitous Real-Time Monitoring of Muscle Activation Potentials.Electromyography Assessment During Gait in a Robotic Exoskeleton for Acute Stroke
P2860
Q27310976-3111432A-E163-4D3B-A22A-D10999AE897AQ30356337-51DD7AD8-2FE9-4A69-8B6A-9C595AEFE946Q30397528-709DE4C8-DD03-406D-968F-C7BAF3F53BDDQ30409701-B8D8C8A8-C16E-4DBB-A562-ACA29E0BCD4BQ30426434-7618C7F2-28FF-48F7-85AE-5629ED0A6C5CQ30429046-E6536EE2-3D3F-4FB9-B3F6-6A433E962823Q31037906-6E54E96E-8AAB-4F66-9125-8BC4306B66F6Q33582250-A1B0C3B3-A800-485E-8FCE-84415BCB0453Q33670784-80A53AE5-774E-4871-869F-F9D1F6481E5DQ33792029-E55B9604-B7A2-4639-86F3-12E719DF3B91Q33962122-D444DFD1-98B0-4609-BDB2-F76DD9EA564EQ34155642-7BBEC822-6DB3-4C3C-AC54-80FAA08D1AF6Q34569634-AC9A7A8F-7674-464C-99B3-9222A1D9DF98Q35053865-855C758E-9BBC-45E3-B246-FF97F0F6375CQ36175944-193F60BD-D32C-47AC-930E-FDC8F1578C0FQ36225501-75054F29-54A2-465D-8BFF-7DE0AEDDE6E6Q36315624-56AB4B9B-B7A3-401E-82A9-96283EA280D6Q36446738-DADF2918-782D-48CD-9291-7FE476B15568Q37000657-4DE39E3F-B69A-4404-A374-4CF479E8DC68Q37390017-4EA36CAE-744A-4EA1-860D-E5D94C24D364Q37393915-3DAE6451-C903-45F4-96E2-63E3F2D7B9B3Q38703246-5CB9AC05-AD11-4ED4-B9A0-CA75C83E130CQ38809681-136373C6-9138-4BE1-880D-0563441F783FQ38828287-1078E8BF-DA83-495A-B79B-3692C14ECEE9Q39592945-A90D3C2A-CD1D-4092-9C18-4A9F99159295Q42288813-AC576136-DC00-40D3-9C77-B1BA881C205CQ42650843-A675526F-409A-4774-A599-ACAD759ED109Q43535993-C6102361-AD01-466E-BB86-F61AE07D0EB7Q46578750-82FF0841-DCCF-4881-9F79-90BEF3BDD075Q47197630-69CBA04D-3114-4B14-B5C5-1B7CCA0ED52EQ47755930-42FAA8F7-8E92-4552-B0FC-2A4F0B734F6AQ48540029-2A146F98-A0DD-4574-BC0B-828525FE5212Q51916582-8951FA50-EF54-4A4F-8FBE-936C44C341C7Q55032208-3376ACD9-4071-468B-8418-DBF0AF732905Q55427686-03F628AB-B29A-4B2B-B484-1A645A5332F9Q55484448-A4D91F69-424D-48D9-B9F8-EE379DF0C7CAQ58797340-00AEB2DD-2EE5-4144-9976-029BC4725931
P2860
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@en
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@nl
type
label
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@en
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@nl
prefLabel
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@en
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@nl
P2093
P1476
Teager-Kaiser energy operation of surface EMG improves muscle activity onset detection.
@en
P2093
Alexander S Aruin
Xiaoyan Li
P2888
P304
P356
10.1007/S10439-007-9320-Z
P577
2007-05-01T00:00:00Z