Robert Plonsey
#23,708
Most Influential Person Now
American biomedical engineer
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Robert Plonseyengineering Degrees
Engineering
#553
World Rank
#921
Historical Rank
#244
USA Rank
Biomedical Engineering
#13
World Rank
#13
Historical Rank
#5
USA Rank
Applied Physics
#1074
World Rank
#1102
Historical Rank
#145
USA Rank
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Engineering
Why Is Robert Plonsey Influential?
(Suggest an Edit or Addition)According to Wikipedia, Robert Plonsey was the Pfizer-Pratt University Professor Emeritus of Biomedical Engineering at Duke University. He is noted for his work on bioelectricity. Education Plonsey was born in New York City in 1924. He received the B.E.E. degree in electrical engineering from the Cooper Union School of Engineering in New York in 1943, and the M.E.E degree from New York University in 1948. He obtained his PhD from the University of California, Berkeley in 1957. In addition, he completed the first year and a half of the MD curriculum and the Case Western Reserve University School of Medicine .
Robert Plonsey's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Bioelectromagnetism: Principles and Applications of Bioelectric and Biomagnetic Fields (1995) (1541)
- Bioelectricity: A Quantitative Approach (1988) (648)
- Considerations of quasi-stationarity in electrophysiological systems. (1967) (594)
- Principles and applications of electromagnetic fields (1961) (237)
- The active fiber in a volume conductor. (1974) (220)
- The extracellular potential field of the single active nerve fiber in a volume conductor. (1968) (185)
- A mathematical evaluation of the core conductor model. (1966) (179)
- Mechanism of cardiac defibrillation in open-chest dogs with unipolar DC-coupled simultaneous activation and shock potential recordings. (1990) (176)
- Current flow patterns in two-dimensional anisotropic bisyncytia with normal and extreme conductivities. (1984) (154)
- The Effects of Variations in Conductivity and Geometrical Parameters on the Electrocardiogram, Using an Eccentric Spheres Model (1979) (149)
- A Comparison of Volume Conductor and Source Geometry Effects on Body Surface and Epicardial Potentials (1980) (138)
- Action potential sources and their volume conductor fields (1977) (134)
- The Four-Electrode Resistivity Technique as Applied to Cardiac Muscle (1982) (128)
- Propagation of excitation in idealized anisotropic two-dimensional tissue. (1984) (123)
- The Eccentric Spheres Model as the Basis for a Study of the Role of Geometry and Inhomogeneities in Electrocardiography (1979) (112)
- A contemporary view of the ventricular gradient of Wilson. (1979) (98)
- Stimulation of Spheroidal Cells - The Role of Cell Shape (1976) (91)
- Bioelectric sources arising in excitable fibers (Alza lecture) (2006) (79)
- The nature of sources of bioelectric and biomagnetic fields. (1982) (77)
- Simulation of propagation along a cylindrical bundle of cardiac tissue. II. Results of simulation (1990) (73)
- Capability and limitations of electrocardiography and magnetocardiography. (1972) (73)
- Mathematical modeling of electrical activity of the heart. (1987) (72)
- Simulation of propagation along a cylindrical bundle of cardiac tissue. I. Mathematical formulation (1990) (68)
- Simulation of electrical interaction of cardiac cells. (1970) (63)
- The transient subthreshold response of spherical and cylindrical cell models to extracellular stimulation (1992) (61)
- In vivo estimation of cardiac transmembrane current. (1993) (61)
- RECIPROCITY APPLIED TO VOLUME CONDUCTORS AND THE ECG. (1963) (60)
- Electric field stimulation of excitable tissue (1995) (59)
- Point source nerve bundle stimulation: effects of fiber diameter and depth on simulated excitation (1990) (57)
- Interstitial potentials and their change with depth into cardiac tissue. (1987) (56)
- VOLUME CONDUCTOR FIELDS OF ACTION CURRENTS. (1964) (54)
- Effect of microscopic and macroscopic discontinuities on the response of cardiac tissue to defibrillating (stimulating) currents (1986) (52)
- A mathematical study of nerve fiber interaction. (1970) (49)
- Electrocardiographic body surface potential maps of the QRS of normal children. (1981) (48)
- Potential and current distributions in a cylindrical bundle of cardiac tissue. (1988) (47)
- Significance of inwardly directed transmembrane current in determination of local myocardial electrical activation during ventricular fibrillation. (1994) (44)
- An Outline of Cardiovascular Structure and Function (2003) (44)
- Engineering contributions to biophysical electrocardiography (1982) (43)
- The Effect of High Lung Conductivity on Electrocardiographic Potentials: Results from Human Subjects Undergoing Bronchopulmonary Lavage (1982) (41)
- A critique of impedance measurements in cardiac tissue (2006) (40)
- Electrophysiological interaction through the interstitial space between adjacent unmyelinated parallel fibers. (1992) (38)
- Electric field stimulation of excitable tissue. (1998) (38)
- The Effects of Variations of the Conducting Media Inhomogeneities on the Electroretinogram (1980) (37)
- Electrical Stimulation of Excitable Tissue (2000) (36)
- Electrical stimulation of excitable cells-a model approach (1988) (36)
- Volume Conductor Theory (1999) (35)
- Development of a model for point source electrical fibre bundle stimulation (1988) (35)
- The use of a bidomain model for the study of excitable media (1989) (34)
- An extension of the solid angle potential formulation for an active cell. (1965) (32)
- Functional Neuromuscular Stimulation (1988) (32)
- Quantitative Formulations of Electrophysiological Sources of Potential Fields in Volume Conductors (1984) (32)
- An evaluation of several cardiac activation models. (1974) (32)
- Limitations of approximate solutions for computing the extracellular potential of single fibers and bundle equivalents (1990) (30)
- AN EXPERIMENTAL DETERMINATION OF A MULTIPOLE REPRESENTATION OF A TURTLE HEART. (1963) (29)
- Implications of macroscopic source strength on cardiac cellular activation models. (1991) (29)
- Comments on the effect of variations in the size of the heart on the magnitude of ECG potentials. (1980) (28)
- The spectrum of right bundle branch block as manifested in electrocardiographic body surface potential maps. (1984) (28)
- Inclusion of junction elements in a linear cardiac model through secondary sources: Application to defibrillation (1986) (28)
- Electrodeless measurements of the effective resistivity of the human torso and head by magnetic induction (1969) (27)
- Intercalated discs as a cause for discontinuous propagation in cardiac muscle: A theoretical simulation (2006) (27)
- Pediatric and Fundamental Electrocardiography (2011) (25)
- Limitations on the equivalent cardiac generator. (1966) (25)
- Fiber interaction in a nerve trunk. (1971) (24)
- The Formulation of Bioelectric Source-field Relationships in Terms of Surface Discontinuities* (1974) (24)
- The Brody effect revisited. (1991) (22)
- Analysis of excitable cell activation: relative effects of external electrical stimuli (1990) (22)
- Threshold variability in fibers with field stimulation of excitable membranes (1995) (21)
- Boundary element analysis of the directional sensitivity of the concentric EMG electrode (1993) (21)
- The effect of cellular discontinuities on the transient subthreshold response of a one-dimensional cardiac model (1992) (20)
- Generation Of Magnetic Fields By The Human Body (Theory) (1981) (19)
- Comparative capabilities of electrocardiography and magnetocardiography. (1972) (19)
- Effect of resistive discontinuities on waveshape and velocity in a single cardiac fibre (1987) (18)
- Propagation in cardiac tissue adjacent to connective tissue: two-dimensional modeling studies (1999) (17)
- CURRENT DIPOLE IMAGES AND REFERENCE POTENTIALS. (1963) (17)
- Dependence of Scalar Potential Measurements on Electrode Geometry (1965) (17)
- A cellular model for the simulation of activation in the ventricular myocardium. (1975) (17)
- Finite difference solution for biopotentials of axially symmetric cells. (1972) (16)
- Sources and Fields (2007) (16)
- Extracellular (volume conductor) effect on adjoining cardiac muscle electrophysiology (1988) (16)
- Electrical Properties of Cells (Patch Clamp for Biologists) (1998) (16)
- Electrode systems for measuring cardiac impedances using optical transmembrane potential sensors and interstitial electrodes-theoretical design (2003) (15)
- A planar slab bidomain model for cardiac tissue (2006) (15)
- A Two-Part Model for Determining the Electromagnetic and Physiologic Behavior of Cuff Electrode Nerve Stimulators (1986) (14)
- Electrocardiogram sources in a 2-dimensional anisotropic activation model (2006) (12)
- Analysis of the longitudinal and radial resistivity measurements of the nerve trunk (2006) (12)
- One-dimensional model of cardiac defibrillation (1991) (12)
- Status and trends in biomedical engineering education (1989) (11)
- Free-moment current dipoles in inverse electrocardiography (1969) (11)
- Extracellular potentials and currents of a single active fiber in a restricted volume conductor (2006) (10)
- Electrode guarding in electrical impedance measurements of physiological systems—a critique (1977) (10)
- On multipole theory in electrocardiography. (1966) (9)
- A biodomain model for simulating propagation in multicellular cardiac tissue (1989) (9)
- Computer model analysis of the relationship of ST-segment and ST-segment/heart rate slope response to the constituents of the ischemic injury source. (1997) (9)
- Numerical solution of the bioelectric field of the e.r.g. (1981) (9)
- A note on the "Brody-effect". (1978) (9)
- RVH with Terminal Right Conduction Delay Versus Partial Right Bundle Branch Block (Utilizing Body Surface Potential Maps) (1987) (8)
- New Directions for Biomedical Engineering. (1973) (7)
- Magnetic field resulting from action currents on cylindrical fibres (1981) (7)
- Surface Current Measurements with an Electric Probe (1962) (6)
- Epicardial cardiac source-field behavior (1995) (6)
- Does Undergraduate Biomedical Engineering Education Produce Real Engineers? (1982) (6)
- Membrane current from transmembrane potentials in complex core-conductor models (2003) (6)
- A note of dipole sources in conducting biological tissues. (1978) (6)
- Extracellular Stimulation of a Cell Having a Non-Uniform Membrane (1974) (6)
- Biophysical Basis of Electrocardiography. (1975) (6)
- A model study of the effect of the intercalated discs on discontinuous propagation in cardiac muscle". (1983) (5)
- Aperture fields (1961) (5)
- On the Effect of the Torso Boundary on Surface Maps (1974) (5)
- Diffraction by cylindrical reflectors (1958) (5)
- Electrical safety standards for electrocardiographic apparatus. (1980) (5)
- Activation fronts elicited remote to the pacing site due to the presence of scar tissue (1996) (5)
- Diffraction by a Slit (1959) (5)
- Introductory Physics and Mathematics (2010) (4)
- Active response of a one-dimensional cardiac model with gap junctions to extracellular stimulation (1992) (4)
- Determination of electrical sources in the mammalian heart from intracellular action potentials. (1971) (4)
- Effect of intracellular anisotropy on electrical source determination in a muscle fibre (1990) (3)
- Field stimulation of 2-D sheets of excitable tissue (2004) (3)
- The radiation from an electrically small circular wire loop implanted in a dissipative homogeneous spherical medium (1972) (3)
- From the Guest Editor, Bioelectricity of Living Tissue (1998) (3)
- On volume conductor fields of compound nerve action potentials (1969) (3)
- Theoretical consideration for a multipole probe in electrocardiographic studies. (1965) (3)
- Effect of junctional resistance on source-strength in a linear cable (2006) (3)
- Data acquisition system for body surface potential mapping. (1978) (3)
- Integral equation solution for biopotentials of single cells. (1972) (3)
- Introduction to Membrane Biophysics (1988) (3)
- The Effect of High Lung Conductivity (2005) (2)
- A Cellular Activation Model Based on Macroscopic Fields (1991) (2)
- Spatial- and frequency-domain ring source models for the single-muscle fibre action potential (2006) (2)
- The role of the interstitial space in electrical models of cardiac sources (1987) (2)
- Erratum: Diffraction by a Slit (1960) (2)
- Optimum detection of myocardial infarctions with an intracavitary probe (1993) (2)
- Recovery of Cardiac Activity—The T-Wave and Ventricular Gradient (1987) (2)
- Biotechnology for Biomedical Engineers (2003) (2)
- The quantitative investigation of the binding process of calcium blocking drugs in a sinoatrial node. (1991) (2)
- The Electrophysiology of the Heart (1988) (2)
- A possible subcellular structure based on the macroscopic cardiac source. (1992) (2)
- Boundary Element Analysis Of Directional Sensitivity Of Bioelectrodes: - A Model Comparison (1991) (2)
- Magnetic field stimulation of multicellular excitable tissue approximated by bidomain (1995) (2)
- Functional Electrical Stimulation (2000) (2)
- Electrical Sources and Fields (1988) (1)
- Bioelectric Potentials and Currents (2000) (1)
- A model for point source electrical nerve bundle stimulation: implications for fiber diameter and depth (1988) (1)
- A simple example of the multipole theory applied to electrocardiography. (1969) (1)
- A critique of the equivalent cardiac generator. (1966) (1)
- Boundary element analysis in bioelectricity (1993) (1)
- Corrections to current distributions on curved reflectors (1956) (1)
- Statistical analysis of signals from an intracavitary probe in a diseased heart (1997) (1)
- Propagation under the influence of interstitial potentials (1992) (1)
- Models and measurements of the cardiac electric field (1985) (1)
- Approximations of excitation threshold in modeling nerve stimulation (1992) (0)
- Comments on “Recommendations for standardization of instruments in electrocardiography and vectorcardiography” (1969) (0)
- Simulation of comparative thresholds for neural and cardiac tissue (1996) (0)
- Statistical methods for vectorcardiographic directions (1969) (0)
- IEEE Fellows Elected for 2000 Millennium Medal Recipients for 2000 (2000) (0)
- During Ventricular Fibrillation (2005) (0)
- An experimental study of the multipole series that represents the human electrocardiogram. (1969) (0)
- The effect of the torso boundary in electrocardiography (1973) (0)
- Technical note on intrauterine transmitter for measurement of fetal heart rate (1969) (0)
- Cardiac Electrophysiology and the Egg (2000) (0)
- Neuromuscular Junction (2007) (0)
- A digital system for enhancing the fetal electrocardiogram (1969) (0)
- 3 Analysis of Metabolic Networks Metabolic Flux Analysis (2003) (0)
- The effect of the torso boundary in electrocardiography. (1973) (0)
- Method for measuring dipole parameters of isolated hearts and muscles: Application to frog gastrocnemius (1969) (0)
- IlieActive Fiber ina Volume Conductor (1974) (0)
- Modifications of the cardiac double-layer source arising from interstitial potentials. (1989) (0)
- A “link trainer” for the coronary care unit (1969) (0)
- Ventricular vector. (1969) (0)
- A generalized electrocardiographic spherical shells model with emphasis on the paced infarcted heart (1993) (0)
- 1 General Principles (2003) (0)
- Contributors May,1962 (1962) (0)
- A note on dipole sources in conducting biological tissues (1978) (0)
- Dipole and quadrupole measurements of an isolated turtle heart (1969) (0)
- Computer-assisted teaching of cardiac arrhythmias (1969) (0)
- Researchers look at undergraduate biomedical engineering education (1982) (0)
- The Biomedical Engineering Handbook: Second Edition. (1999) (0)
- The solution of overdetermined linear equations as a multistage process (1969) (0)
- Subthreshold electric field stimulation of excitable tissue (1997) (0)
- A Boundary Element Analysis Of Potential Measurements Using Electrodes With Roughened Surfaces (1990) (0)
- On the determination and expressions of equivalent quadrupole of the cardiac generator (1969) (0)
- PhD/MD TRAINING IN BIOMEDICAL ENGINEERING (1978) (0)
- Stimulation ofSpheroidal Cells-The RoleofCellShape (1976) (0)
- ()> IEEE ENGINEERNG IN MEDICINE AND BIOLOGY GROUP TheIEEEEngineering inMedicine andBiology Groupisanorganization within theframework oftheIEEEofmembers withprincipal Professional in- terest inbiomedical engineering. Allmembers oftheIEEEareeligible formembership intheGroupandwill receive this TRANSAC (1975) (0)
- Electrical Field Modeling (2019) (0)
- Capacitive electrocardiographic and bioelectric electrodes (1969) (0)
- Comments on "Aperture fields" (1962) (0)
- Reliable triggering for exercise electrocardiograms (1969) (0)
- A mathematical model for the polarization impedance of cardiac pacemaker electrodes (1969) (0)
- Multidimensional activation of the heart: The effect of anisotropy in conductivity of cardiac tissue (1985) (0)
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