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F A Roberge

Showing results (51-60 of 66) with videos related to

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Computers and Biomedical Research, an International Journal|February 1, 1985
Numerical integration in the reconstruction of cardiac action potentials using Hodgkin-Huxley-type modelsB Victorri, A Vinet, F A Roberge, et al.
Annals of Biomedical Engineering|November 1, 1996
Propagation on a central fiber surrounded by inactive fibers in a multifibered bundle modelF A Roberge, S Wang, H Hogues, et al.
L'Union Medicale Du Canada|April 1, 1979
[Outline of the tele-monitoring operation at Sacré-Coeur Hospital]G Pagé, A Proulx, P A Mathieu, et al.
Canadian Journal of Physiology and Pharmacology|October 1, 1977
A study of soma isopotentiality in Aplysia neuronsF A Roberge, R Jacob, R M Gulrajani, et al.
Circulation Research|March 1, 1980
Representation of cardiac electrical activity by a moving dipole for normal and ectopic beats in the intact dogP Savard, F A Roberge, J B Perry, et al.
Journal of Electrocardiology|April 1, 1990
Simulation and experimental studies of the factors influencing the frequency spectrum of cardiac extracellular waveformsD Joly, P Savard, F A Roberge, et al.
Catheterization and Cardiovascular Diagnosis|January 1, 1978
A new method for the precise and complete correction of distortion on cineangiographic image: its effect on left ventricular measurementsP Bonard, G Tremblay, A R LeBlanc, et al.
L'Union Medicale Du Canada|August 1, 1977
[System of thoracic cartography of cardiac electrical potentials]R Guardo, P Savard, H Pham-Huy, et al.
IEEE Transactions on Bio-Medical Engineering|February 1, 1985
Inverse recovery of two moving dipoles from simulated surface potential distributions on a realistic human torso modelJ de Guise, R M Gulrajani, P Savard, et al.
IEEE Transactions on Bio-Medical Engineering|October 1, 1982
A simulation study of the single moving dipole representation of cardiac electrical activityP Savard, G E Mailloux, F A Roberge, et al.
Pageof 7

Showing results (51-60 of 66) with videos related to

Sort By:
Pageof 7
Computers and Biomedical Research, an International Journal|February 1, 1985
Numerical integration in the reconstruction of cardiac action potentials using Hodgkin-Huxley-type modelsB Victorri, A Vinet, F A Roberge, et al.
Annals of Biomedical Engineering|November 1, 1996
Propagation on a central fiber surrounded by inactive fibers in a multifibered bundle modelF A Roberge, S Wang, H Hogues, et al.
L'Union Medicale Du Canada|April 1, 1979
[Outline of the tele-monitoring operation at Sacré-Coeur Hospital]G Pagé, A Proulx, P A Mathieu, et al.
Canadian Journal of Physiology and Pharmacology|October 1, 1977
A study of soma isopotentiality in Aplysia neuronsF A Roberge, R Jacob, R M Gulrajani, et al.
Circulation Research|March 1, 1980
Representation of cardiac electrical activity by a moving dipole for normal and ectopic beats in the intact dogP Savard, F A Roberge, J B Perry, et al.
Journal of Electrocardiology|April 1, 1990
Simulation and experimental studies of the factors influencing the frequency spectrum of cardiac extracellular waveformsD Joly, P Savard, F A Roberge, et al.
Catheterization and Cardiovascular Diagnosis|January 1, 1978
A new method for the precise and complete correction of distortion on cineangiographic image: its effect on left ventricular measurementsP Bonard, G Tremblay, A R LeBlanc, et al.
L'Union Medicale Du Canada|August 1, 1977
[System of thoracic cartography of cardiac electrical potentials]R Guardo, P Savard, H Pham-Huy, et al.
IEEE Transactions on Bio-Medical Engineering|February 1, 1985
Inverse recovery of two moving dipoles from simulated surface potential distributions on a realistic human torso modelJ de Guise, R M Gulrajani, P Savard, et al.
IEEE Transactions on Bio-Medical Engineering|October 1, 1982
A simulation study of the single moving dipole representation of cardiac electrical activityP Savard, G E Mailloux, F A Roberge, et al.
Pageof 7