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R E Gander

Showing results (1-10 of 12) with videos related to

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Journal of Clinical Engineering|July 1, 1996
Biomedical engineering education in Canada, 1996R E Gander, C F Small
The Review of Scientific Instruments|October 1, 1980
Precise stimulus for the measurement of visual flicker sensitivityR E Gander, R C Frecker
Electromyography and Clinical Neurophysiology|November 1, 1985
Power spectral density of the surface myoelectric signal of the biceps brachii as a function of static loadR E Gander, B S Hudgins
Electroencephalography and Clinical Neurophysiology|August 1, 1989
Changes in the myoelectric signal (MES) power spectra during dynamic contractionsS Shankar, R E Gander, B R Brandell
IEEE Transactions on Bio-Medical Engineering|August 1, 1996
Determination of nerve conduction velocity distribution from sampled compound action potential signalsD Gu, R E Gander, E C Crichlow
IEEE Transactions on Bio-Medical Engineering|July 1, 1992
A movement pattern generator model using artificial neural networksS Srinivasan, R E Gander, H C Wood
Journal of Motor Behavior|November 28, 2002
Model Predictive Impedance Control: A Model for Joint MovementF Towhidkhah, R E Gander, H C Wood
IEEE Transactions on Bio-Medical Engineering|March 1, 1991
Real-time digital median frequency estimator for surface myoelectric signalsA J Pratt, R E Gander, B R Brandell
Journal of Rehabilitation R&D|July 1, 1983
Multistate myoelectric control: the feasibility of 5-state controlP D Richard, R E Gander, P A Parker, et al.
Medical & Biological Engineering & Computing|July 1, 1984
Digital myoelectric signal processor with decision boundariesJ L Bérubé, P A Parker, R E Gander, et al.
Pageof 2

Showing results (1-10 of 12) with videos related to

Sort By:
Pageof 2
Journal of Clinical Engineering|July 1, 1996
Biomedical engineering education in Canada, 1996R E Gander, C F Small
The Review of Scientific Instruments|October 1, 1980
Precise stimulus for the measurement of visual flicker sensitivityR E Gander, R C Frecker
Electromyography and Clinical Neurophysiology|November 1, 1985
Power spectral density of the surface myoelectric signal of the biceps brachii as a function of static loadR E Gander, B S Hudgins
Electroencephalography and Clinical Neurophysiology|August 1, 1989
Changes in the myoelectric signal (MES) power spectra during dynamic contractionsS Shankar, R E Gander, B R Brandell
IEEE Transactions on Bio-Medical Engineering|August 1, 1996
Determination of nerve conduction velocity distribution from sampled compound action potential signalsD Gu, R E Gander, E C Crichlow
IEEE Transactions on Bio-Medical Engineering|July 1, 1992
A movement pattern generator model using artificial neural networksS Srinivasan, R E Gander, H C Wood
Journal of Motor Behavior|November 28, 2002
Model Predictive Impedance Control: A Model for Joint MovementF Towhidkhah, R E Gander, H C Wood
IEEE Transactions on Bio-Medical Engineering|March 1, 1991
Real-time digital median frequency estimator for surface myoelectric signalsA J Pratt, R E Gander, B R Brandell
Journal of Rehabilitation R&D|July 1, 1983
Multistate myoelectric control: the feasibility of 5-state controlP D Richard, R E Gander, P A Parker, et al.
Medical & Biological Engineering & Computing|July 1, 1984
Digital myoelectric signal processor with decision boundariesJ L Bérubé, P A Parker, R E Gander, et al.
Pageof 2