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Y Rudy

Showing results (41-50 of 104) with videos related to

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IEEE Transactions on Bio-Medical Engineering|January 1, 1992
The use of temporal information in the regularization of the inverse problem of electrocardiographyH S Oster, Y Rudy
IEEE Transactions on Bio-Medical Engineering|February 1, 1997
Regional regularization of the electrocardiographic inverse problem: a model study using spherical geometryH S Oster, Y Rudy
Circulation Research|June 1, 1994
A dynamic model of the cardiac ventricular action potential. II. Afterdepolarizations, triggered activity, and potentiationC H Luo, Y Rudy
Circulation Research|November 14, 1997
Ionic mechanisms of propagation in cardiac tissue. Roles of the sodium and L-type calcium currents during reduced excitability and decreased gap junction couplingR M Shaw, Y Rudy
Advances in Experimental Medicine and Biology|January 1, 1997
Cardiac excitation: an interactive process of ion channels and gap junctionsY Rudy, R M Shaw
Mathematical Biosciences|November 1, 1989
Computational issues of importance to the inverse recovery of epicardial potentials in a realistic heart-torso geometryB J Messinger-Rapport, Y Rudy
IEEE Transactions on Bio-Medical Engineering|July 1, 1986
The inverse problem in electrocardiography: a model study of the effects of geometry and conductivity parameters on the reconstruction of epicardial potentialsB J Messinger-Rapport, Y Rudy
Circulation Research|January 1, 1979
The effects of variations in conductivity and geometrical parameters on the electrocardiogram, using an eccentric spheres modelY Rudy, R Plonsey, J Liebman
Circulation Research|April 1, 1990
Noninvasive recovery of epicardial potentials in a realistic heart-torso geometry. Normal sinus rhythmB J Messinger-Rapport, Y Rudy
Critical Reviews in Biomedical Engineering|January 1, 1988
The inverse problem in electrocardiography: solutions in terms of epicardial potentialsY Rudy, B J Messinger-Rapport
Pageof 11

Showing results (41-50 of 104) with videos related to

Sort By:
Pageof 11
IEEE Transactions on Bio-Medical Engineering|January 1, 1992
The use of temporal information in the regularization of the inverse problem of electrocardiographyH S Oster, Y Rudy
IEEE Transactions on Bio-Medical Engineering|February 1, 1997
Regional regularization of the electrocardiographic inverse problem: a model study using spherical geometryH S Oster, Y Rudy
Circulation Research|June 1, 1994
A dynamic model of the cardiac ventricular action potential. II. Afterdepolarizations, triggered activity, and potentiationC H Luo, Y Rudy
Circulation Research|November 14, 1997
Ionic mechanisms of propagation in cardiac tissue. Roles of the sodium and L-type calcium currents during reduced excitability and decreased gap junction couplingR M Shaw, Y Rudy
Advances in Experimental Medicine and Biology|January 1, 1997
Cardiac excitation: an interactive process of ion channels and gap junctionsY Rudy, R M Shaw
Mathematical Biosciences|November 1, 1989
Computational issues of importance to the inverse recovery of epicardial potentials in a realistic heart-torso geometryB J Messinger-Rapport, Y Rudy
IEEE Transactions on Bio-Medical Engineering|July 1, 1986
The inverse problem in electrocardiography: a model study of the effects of geometry and conductivity parameters on the reconstruction of epicardial potentialsB J Messinger-Rapport, Y Rudy
Circulation Research|January 1, 1979
The effects of variations in conductivity and geometrical parameters on the electrocardiogram, using an eccentric spheres modelY Rudy, R Plonsey, J Liebman
Circulation Research|April 1, 1990
Noninvasive recovery of epicardial potentials in a realistic heart-torso geometry. Normal sinus rhythmB J Messinger-Rapport, Y Rudy
Critical Reviews in Biomedical Engineering|January 1, 1988
The inverse problem in electrocardiography: solutions in terms of epicardial potentialsY Rudy, B J Messinger-Rapport
Pageof 11