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F A Roberge

Showing results (21-30 of 66) with videos related to

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Journal of Electrocardiology|January 1, 1992
Propagation of activation in cardiac muscleF A Roberge, L J Leon
IEEE Transactions on Bio-Medical Engineering|July 1, 1982
A simulation study of the ventricular myocardial action potentialJ P Drouhard, F A Roberge
IEEE Transactions on Bio-Medical Engineering|October 1, 1991
Structural complexity effects on transverse propagation in a two-dimensional model of myocardiumL J Leon, F A Roberge
Medical & Biological Engineering|January 1, 1976
The modelling of the Hodgkin-Huxley membrane with field-effect transistorsR M Gulrajani, F A Roberge
Circulation Research|August 1, 1991
Directional characteristics of action potential propagation in cardiac muscle. A model studyL J Leon, F A Roberge
Electroencephalography and Clinical Neurophysiology|January 1, 1971
The normalized transition matrix. A method for the measure of dependence between inter-spike intervalsJ F Feldman, F A Roberge
Circulation Research|April 1, 1986
Reconstruction of propagated electrical activity with a two-dimensional model of anisotropic heart muscleF A Roberge, A Vinet, B Victorri
Medical Progress Through Technology|January 1, 1989
Using structural and visual information in physiological systems modelingJ A de Guise, F A Roberge
Medical & Biological Engineering & Computing|July 1, 1989
Model study of the spread of electrotonic potential in cardiac tissueF A Roberge, L Boucher, A Vinet
Medical & Biological Engineering|January 1, 1971
A cardiac pacemaker modelF A Roberge, P Bhéreur, R A Nadeau
Pageof 7

Showing results (21-30 of 66) with videos related to

Sort By:
Pageof 7
Journal of Electrocardiology|January 1, 1992
Propagation of activation in cardiac muscleF A Roberge, L J Leon
IEEE Transactions on Bio-Medical Engineering|July 1, 1982
A simulation study of the ventricular myocardial action potentialJ P Drouhard, F A Roberge
IEEE Transactions on Bio-Medical Engineering|October 1, 1991
Structural complexity effects on transverse propagation in a two-dimensional model of myocardiumL J Leon, F A Roberge
Medical & Biological Engineering|January 1, 1976
The modelling of the Hodgkin-Huxley membrane with field-effect transistorsR M Gulrajani, F A Roberge
Circulation Research|August 1, 1991
Directional characteristics of action potential propagation in cardiac muscle. A model studyL J Leon, F A Roberge
Electroencephalography and Clinical Neurophysiology|January 1, 1971
The normalized transition matrix. A method for the measure of dependence between inter-spike intervalsJ F Feldman, F A Roberge
Circulation Research|April 1, 1986
Reconstruction of propagated electrical activity with a two-dimensional model of anisotropic heart muscleF A Roberge, A Vinet, B Victorri
Medical Progress Through Technology|January 1, 1989
Using structural and visual information in physiological systems modelingJ A de Guise, F A Roberge
Medical & Biological Engineering & Computing|July 1, 1989
Model study of the spread of electrotonic potential in cardiac tissueF A Roberge, L Boucher, A Vinet
Medical & Biological Engineering|January 1, 1971
A cardiac pacemaker modelF A Roberge, P Bhéreur, R A Nadeau
Pageof 7