Bradley J. Roth

Q: What Schools Are Affiliated With Bradley J. Roth

Bradley J. Roth is affiliated with the following schools: University of California, Berkeley, Oakland University, Vanderbilt University, University of Kansas, Stanford University

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Bradley J. Roth

Engineering

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Electrical Engineering

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#1847

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Bradley J. Roth

Computer Science

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#8248

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Computational Linguistics

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#1670

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Machine Learning

#3044

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#3082

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Artificial Intelligence

#3338

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#3387

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computer-science Degrees

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Engineering
Computer Science

Bradley J. Roth's Degrees

PhD Computer Science Stanford University
Masters Electrical Engineering University of California, Berkeley
Bachelors Computer Engineering University of California, Berkeley

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Bradley J. Roth'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

Optimal Focal Transcranial Magnetic Activation of the Human Motor Cortex: Effects of Coil Orientation, Shape of the Induced Current Pulse, and Stimulus Intensity (1992) (596)
Effects of coil design on delivery of focal magnetic stimulation. Technical considerations. (1990) (423)
Using a magnetometer to image a two‐dimensional current distribution (1989) (393)
Current injection into a two-dimensional anisotropic bidomain. (1989) (366)
A model of the stimulation of a nerve fiber by electromagnetic induction (1990) (356)
A theoretical calculation of the electric field induced in the cortex during magnetic stimulation. (1991) (321)
Electrical conductivity values used with the bidomain model of cardiac tissue (1997) (217)
A mathematical model of make and break electrical stimulation of cardiac tissue by a unipolar anode or cathode (1995) (192)
Mechanisms for electrical stimulation of excitable tissue. (1994) (185)
Virtual Electrodes and Deexcitation: New Insights into Fibrillation Induction and Defibrillation (2000) (176)
How well does a three-sphere model predict positions of dipoles in a realistically shaped head? (1993) (156)
Action potential propagation in a thick strand of cardiac muscle. (1991) (155)
Experimental and Theoretical Analysis of Phase Singularity Dynamics in Cardiac Tissue (2001) (137)
New currents in electrical stimulation of excitable tissues. (2000) (135)
Relevance of stimulus duration for activation of motor and sensory fibers: implications for the study of H-reflexes and magnetic stimulation. (1988) (126)
A theoretical calculation of the electric field induced by magnetic stimulation of a peripheral nerve (1990) (125)
Quatrefoil Reentry in Myocardinm: An Optical Imaging Study of the Induction Mechanism (1999) (124)
A mathematical model for electrical stimulation of a monolayer of cardiac cells (2004) (123)
Magnetic Stimulation of the Human Cerebral Cortex, an Indicator of Reorganization in Motor Pathways in Certain Pathological Conditions (1991) (122)
The response of a spherical heart to a uniform electric field: a bidomain analysis of cardiac stimulation (1993) (121)
The magnetic field of a single axon. A comparison of theory and experiment. (1985) (114)
Electrical stimulation of cardiac tissue: a bidomain model with active membrane properties (1994) (111)
Source analysis of scalp-recorded movement-related electrical potentials. (1993) (105)
The heating of metal electrodes during rapid-rate magnetic stimulation: a possible safety hazard. (1992) (99)
Stimulation of a myelinated nerve axon by electromagnetic induction (1991) (99)
Topographic maps of human motor cortex in normal and pathological conditions: mirror movements, amputations and spinal cord injuries. (1991) (97)
The electric field induced during magnetic stimulation. (1991) (97)
The magnetic field of a single axon: A volume conductor model (1985) (96)
Determining the site of stimulation during magnetic stimulation of a peripheral nerve. (1992) (90)
The induction of reentry in cardiac tissue. The missing link: How electric fields alter transmembrane potential. (1998) (89)
Dipole localization in patients with epilepsy using the realistically shaped head model. (1997) (89)
How the anisotropy of the intracellular and extracellular conductivities influences stimulation of cardiac muscle (1992) (88)
A Bidomain Model for the Extracellular Potential and Magnetic Field of Cardiac Tissue (1986) (88)
Nonsustained Reentry Following Successive Stimulation of Cardiac Tissue Through a Unipolar Electrode (1997) (79)
Strength‐Interval Curves for Cardiac Tissue Predicted Using the Bidomain Model (1996) (77)
The time constants of motor and sensory peripheral nerve fibers measured with the method of latent addition. (1994) (75)
Latency of motor evoked potentials to focal transcranial stimulation varies as a function of scalp positions stimulated. (1991) (72)
A theoretical model for magneto-acoustic imaging of bioelectric currents (1994) (70)
Optical measurement of cell-to-cell coupling in intact heart using subthreshold electrical stimulation. (2001) (68)
The activating function for magnetic stimulation derived from a three-dimensional volume conductor model (1992) (56)
Spatial and temporal frequency-dependent conductivities in volume-conduction calculations for skeletal muscle (1988) (54)
The magnetic field of cortical current sources: the application of a spatial filtering model to the forward and inverse problems. (1990) (53)
In vitro evaluation of a 4-leaf coil design for magnetic stimulation of peripheral nerve. (1994) (52)
Role of Virtual Electrodes in Arrhythmogenesis: Pinwheel Experiment Revisited (2000) (49)
Averaging over depth during optical mapping of unipolar stimulation (2002) (49)
Electrically silent magnetic fields. (1986) (49)
Magnetic determination of the spatial extent of a single cortical current source: a theoretical analysis. (1988) (45)
Meandering of spiral waves in anisotropic cardiac tissue (2001) (43)
The role of magnetic forces in biology and medicine (2011) (40)
The electrical potential and the magnetic field of an axon in a nerve bundle (1985) (40)
Artifacts, assumptions, and ambiguity: Pitfalls in comparing experimental results to numerical simulations when studying electrical stimulation of the heart. (2002) (40)
The Electrical Conductivity of Tissues (1999) (38)
Approximate analytical solutions to the bidomain equations with unequal anisotropy ratios (1997) (37)
Differences between the time constant of sensory and motor peripheral nerve fibers: Further studies and considerations (1998) (37)
Electrical stimulation of cardiac tissue by a bipolar electrode in a conductive bath (1998) (36)
A theoretical comparison of electric and magnetic stimulation of the brain (2006) (36)
The electrical potential produced by a strand of cardiac muscle: A bidomain analysis (2006) (34)
Capabilities of a Toroid-Amplifier System for Magnetic Measurement of Current in Biological Tissue (1986) (34)
The effect of plunge electrodes during electrical stimulation of cardiac tissue (2001) (33)
The effects of spiral anisotropy on the electric potential and the magnetic field at the apex of the heart (1988) (32)
A comparison of two boundary conditions used with the bidomain model of cardiac tissue (2006) (31)
A Mechanism for Anisotropic Reentry in Electrically Active Tissue (1992) (31)
Forward Euler Stability of the Bidomain Model of Cardiac Tissue (2007) (30)
Frequency locking of meandering spiral waves in cardiac tissue (1998) (29)
The Effect of Electrical Anisotropy During Magnetoacoustic Tomography With Magnetic Induction (2008) (29)
Approximate analytical solutions of the Bidomain equations for electrical stimulation of cardiac tissue with curving fibers. (2003) (29)
Risk of burns during rapid-rate magnetic stimulation in presence of electrodes (1990) (28)
Ultrasonically-induced Lorentz force tomography (2009) (27)
The use of a cap-shaped coil for transcranial magnetic stimulation of the motor cortex. (1993) (26)
Effects of Elevated Extracellular Potassium Ion Concentration on Anodal Excitation of Cardiac Tissue (2003) (26)
Magnetic Measurements of Action Currents in a Single Nerve Axon: A Core-Conductor Model (1985) (24)
The pinwheel experiment revisited. (1998) (24)
How the anisotropy of the intracellular and extracellular conductivities influences stimulation of cardiac muscle (1992) (24)
Time Dependence of Anodal and Cathodal Refractory Periods in Cardiac Tissue (1997) (23)
An S1 gradient of refractoriness is not essential for reentry induction by an S2 stimulus (2000) (23)
Virtual electrode effects around an artificial heterogeneity during field stimulation of cardiac tissue. (2006) (23)
MECHANISM OF ANODE BREAK EXCITATION IN THE HEART: THE RELATIVE INFLUENCE OF MEMBRANE AND ELECTROTONIC FACTORS (1999) (22)
Mechanical model of neural tissue displacement during Lorentz effect imaging (2009) (22)
Unipolar stimulation of cardiac tissue. (1998) (22)
Analytical model for predicting mechanotransduction effects in engineered cardiac tissue. (2003) (22)
The magnetic field associated with a plane wave front propagating through cardiac tissue (1999) (20)
The effect of externally applied electrical fields on myocardial tissue (1996) (20)
How electrode size affects the electric potential distribution in cardiac tissue (2000) (20)
Effect of a bath on the epicardial transmembrane potential during internal defibrillation shocks (1999) (20)
Optical measurements reveal nature of intercellular coupling across ventricular wall. (2005) (20)
Hybrid modeling of electrical and optical behavior in the heart (2009) (18)
Algorithm for the design of magnetic stimulation coils (1994) (18)
Influence of a perfusing bath on the foot of the cardiac action potential. (2000) (18)
The Bidomain Theory of Pacing (2009) (18)
Apodized pickup coils for improved spatial resolution of SQUID magnetometers (1990) (17)
Calculation of optical signal using three-dimensional bidomain/diffusion model reveals distortion of the transmembrane potential. (2008) (17)
Detection of Peripheral Nerve and Skeletal Muscle Action Currents Using Magnetic Resonance Imaging (2009) (16)
Quatrefoil Reentry Caused by Burst Pacing (2006) (15)
A theoretical comparison of electric and magnetic stimulation of the brain (2006) (15)
Mechanical bidomain model of cardiac tissue. (2010) (15)
Cardiac tissue in an electric field: a study in electrical stimulation (1992) (15)
Comments on "Hall Effect Imaging" [with reply] (1998) (15)
Thermal fluctuations of the magnetic field over a thin conducting plate (1998) (14)
Effect of plunge electrodes in active cardiac tissue with curving fibers. (2004) (14)
A mechanism for the upper limit of vulnerability. (2009) (14)
The potential induced in anisotropic tissue by the ultrasonically-induced Lorentz force (2008) (14)
The Strength-Interval Curve in Cardiac Tissue (2013) (13)
Radiosensitizing and Hyperthermic Properties of Hyaluronan Conjugated, Dextran-Coated Ferric Oxide Nanoparticles: Implications for Cancer Stem Cell Therapy (2015) (13)
A comparison of two models for calculating the electrical potential in skeletal muscle (2006) (13)
Comments on "Hall effect imaging". (1998) (13)
Cardiac Optical Mapping Under a Translucent Stimulation Electrode (2004) (13)
A mathematical description of a growing cell colony based on the mechanical bidomain model (2017) (12)
Effect of a perfusing bath on the rate of rise of an action potential propagating through a slab of cardiac tissue (1996) (12)
Lorentz effect imaging of ionic currents in solution using correct values for ion mobility. (2010) (12)
Steady-state point-source stimulation of a nerve containing axons with an arbitrary distribution of diameters (2006) (12)
Is it possible to detect dendrite currents using presently available magnetic resonance imaging techniques? (2012) (12)
THE FORMATION OF A RE-ENTRANT ACTION POTENTIAL WAVE FRONT IN TISSUE WITH UNEQUAL ANISOTROPY RATIOS (1991) (12)
Determining the light scattering and absorption parameters from forward-directed flux measurements in cardiac tissue (2017) (12)
The Mechanical Bidomain Model: A Review. (2013) (11)
Mechanism for polarisation of cardiac tissue at a sealed boundary (1999) (11)
The effect of electroporation on the strength-interval curve during unipolar stimulation of cardiac tissue (1997) (11)
Art Winfree and the bidomain model of cardiac tissue. (2004) (11)
Measurements of transmembrane potential and magnetic field at the apex of the heart. (2010) (11)
A perturbation solution of the mechanical bidomain model (2011) (11)
Boundary Layers and the Distribution of Membrane Forces Predicted by the Mechanical Bidomain Model. (2013) (10)
Mechanisms for cardiac stimulation (1993) (10)
How Epicardial Electrodes Influence the Transmembrane Potential During a Strong Shock (2001) (10)
Virtual Electrode Theory of Pacing (2021) (10)
A numerical solution of the mechanical bidomain model (2016) (9)
How to Explain Why "Unequal Anisotropy Ratios" is Important Using Pictures but No Mathematics (2006) (9)
The Magnetic Field Produced by the Heart and Its Influence on MRI (2017) (9)
Photon Density Measured Over a Cut Surface: Implications for Optical Mapping of the Heart (2008) (9)
The movement of a nerve in a magnetic field: application to MRI Lorentz effect imaging (2014) (8)
A Simplified Approach for Simultaneous Measurements of Wavefront Velocity and Curvature in the Heart Using Activation Times (2013) (8)
Optimization of Feedback Pacing for Defibrillation (2009) (8)
What does the ratio of injected current to electrode area not tell us about tDCS? (2009) (8)
Intracellular calcium and the mechanism of the dip in the anodal strength-interval curve in cardiac tissue. (2012) (8)
NUMERICAL SIMULATIONS OF SYNCHRONIZED PACING (2006) (7)
A Model for Multi-site Pacing of Fibrillation Using Nonlinear Dynamics Feedback (2007) (7)
Cardiac strength-interval curves calculated using a bidomain tissue with a parsimonious ionic current (2017) (7)
Fourier analysis in magnetic induction tomography: mapping of anisotropic, inhomogeneous resistivity (2011) (7)
How Hyperpolarization and the Recovery of Excitability Affect Propagation through a Virtual Anode in the Heart (2011) (7)
A comparative model of two mechanisms from which a magnetic field arises in the heart (2004) (7)
Heterogeneous anisotropic magnetic susceptibility of the myelin‐water layers causes local magnetic field perturbations in axons (2017) (6)
Medical Applications of Nanoparticles (2013) (6)
Simulation of Protective Zones During Quatrefoil Reentry in Cardiac Tissue (2001) (6)
Correction to "how electrode size affects the electrical potential distribution in cardiac tissue" (2002) (6)
Development of an imaging modality utilizing 2D optical signals during an EPI-fluorescent optical mapping experiment (2009) (6)
Scaling Laws For Electromagnetic Stimulation Of An Axon (1990) (6)
The mechanical bidomain model of cardiac muscle with curving fibers (2018) (5)
The Mechanism of Reflection Type Reentry: A Simulation Study (2015) (5)
Approximate solution to the bidomain equations for electrocardiogram problems. (2005) (5)
Using the mechanical bidomain model to analyze the biomechanical behavior of cardiomyocytes. (2015) (5)
Electrical stimulation in a time-dependent, passive bidomain (1993) (5)
Simulations of Optical Mapping During Electroporation (2004) (5)
Approximate solution to the bidomain equations for defibrillation problems. (2005) (5)
A collection of homework problems about the application of electricity and magnetism to medicine and biology (2014) (5)
The Effect of the Fiber Curvature Gradient on Break Excitation in Cardiac Tissue (2006) (5)
Sawtooth Effect: Fact or Fancy? (2001) (5)
Electromagnetic stimulation of a myelinated axon (1990) (5)
Michael Faraday and painless defibrillation. (2005) (5)
How Compressibility Influences the Mechanical Bidomain Model (2014) (5)
Dependence of cardiac strength-interval curves on pacing rate (2006) (4)
How the Spatial Frequency of Polarization Influences the Induction of Reentry in Cardiac Tissue (2005) (4)
Modeling of Spreading Cortical Depression Using a Realistic Head Model (2004) (4)
Exponential Growth and Decay (2015) (4)
The effect of the cut surface during electrical stimulation of a cardiac wedge preparation (2006) (4)
Electrostriction of anisotropic tissue. (2007) (4)
Biomagnetic studies of peripheral nerves and skeletal muscle. (1990) (4)
Finite element bidomain calculations (1988) (4)
Automating phase singularity localization in mathematical models of cardiac tissue dynamics. (2005) (4)
Longitudinal resistance in srands of cardiac muscle (1988) (4)
Modeling bipolar stimulation of cardiac tissue. (2017) (3)
Interpretation of skeletal muscle four-electrode impedance measurements using spatial and temporal frequency-dependent conductivities (1989) (3)
Bidomain modeling of electrical and mechanical properties of cardiac tissue (2021) (3)
Are glial cells responsible for transcranial direct current stimulation? (2012) (3)
Optical imaging of the heart: Seeing below the surface. (2010) (3)
Does ephaptic coupling contribute to propagation in cardiac tissue? (2014) (3)
Fourier-based magnetic induction tomography for mapping resistivity. (2011) (3)
Averaging over depth during optical mapping of electroporation (2002) (3)
Interaction of Photons and Charged Particles with Matter (2015) (3)
Magneto-encephalogram artifacts caused by electro-encephalogram electrodes (2003) (3)
The Method of Least Squares and Signal Analysis (2015) (3)
Capabilities ofa Toroid-Amplifier Systemfor Magnetic Measurement ofCurrentin Biological Tissue (1986) (3)
Electrical stimulation of cardiac tissue by an electrode in a conductive bath (1997) (3)
Bidomain simulations of defibrillation: 20 years of progress. (2013) (3)
A mechanism for the "no-response"" phenomenon during anodal stimulation of cardiac tissue (1997) (3)
Transport in an Infinite Medium (2015) (3)
The Puzzle of Defibrillation: Putting the Pieces Together (2005) (2)
A mathematical model of mechanotransduction (2016) (2)
Effect of a Volume Conductor on the Transmembrane Potential Distribution over the Epicardial Surface of the Heart (1997) (2)
Monodomain shear wave propagation and bidomain shear wave dispersion in an elastic model of cardiac tissue. (2013) (2)
Critical point theory versus the bidomain model for reentry induction (1999) (2)
Nuclear Physics and Nuclear Medicine (2015) (2)
Electrical Pacing of Cardiac Tissue Including Potassium Inward Rectification (2015) (2)
Erratum: “Fourier-based magnetic induction tomography for mapping resistivity” [J. Appl. Phys. 109, 014701 (2011)] (2011) (2)
Elastic Wave Propagation in a Mechanical Bidomain Model of Cardiac Tissue (2011) (2)
Numerical Simulations of Cardiac Tissue Excitation and Pacing Using the Bidomain Model (2011) (2)
An Elementary Model of the Earth's Magnetic Field (2007) (2)
Electricity and Magnetism at the Cellular Level (2015) (2)
Resource Letter MP-2: Medical Physics (2009) (2)
Hyaluronan-mediated ferric oxide nanoparticles causes apoptosis of CD44 expressing head and neck squamous cell carcinoma cells (2016) (2)
Chapter 29 – Two-dimensional Propagation in Cardiac Muscle (2004) (1)
Mechanotransduction caused by a point force in the extracellular space (2018) (1)
Effect of peripheral nerve action currents on magnetic resonance imaging (2009) (1)
Atoms and Light (2015) (1)
Medical Use of X Rays (2007) (1)
Small random fiber angle variations as a mechanism for far-field stimulation of cardiac tissue (2004) (1)
Transmembrane current imaging in the heart during pacing and fibrillation. (2013) (1)
Can MRI Be Used as a Sensor to Record Neural Activity? (2023) (1)
The Exterior Potential and the Electrocardiogram (2015) (1)
Mechanical bidomain model of cardiac muscle with unequal anisotropy ratios. (2019) (1)
Magnetic resonance imaging technique and peripheral nerve activities (2009) (1)
A Simplified Approach for Simultaneous Measurements of Wavefront Velocity and Curvature in the Heart Using Activation Times (2013) (0)
Effect of Different Currents and Extracellular Potassium Ion Concentration on Anodal Excitation of Cardiac Tissue (2014) (0)
ELECTRICAL INSTABILITY DUE TO REGIONAL INCREASE IN EXTRACELLULAR POTASSIUM ION CONCENTRATION. (2015) (0)
Technique to Measure Action Potential Wave Front Speed, Direction, and Curvature in Cardiac Tissue (2011) (0)
Indentation of Anisotropic Tissue Using a Three-Dimensional Mechanical Bidomain Model (2022) (0)
Stability of the Euler integration method in coupled two-domain diffusive systems (2012) (0)
Engineered cardiac tissue analyzed using the mechanical bidomain model (2018) (0)
Sound and Ultrasound (2015) (0)
Effect of a Plunge Electrode During Field Stimulation of Cardiac Tissue (2003) (0)
Magneto-Acoustic Imaging in Biology (2023) (0)
Feedback and Control (2015) (0)
Transport Through Neutral Membranes (2015) (0)
Electrostriction Effects During Defibrillation (2007) (0)
Systems of Many Particles (2015) (0)
The movement of a nerve in a magnetic field: application to MRI Lorentz effect imaging (2014) (0)
A pedagogical master class on biological physics (2018) (0)
Shielding device for use in an electromagnetic weighing apparatus. (1989) (0)
An Iterative Solution to the Bidomain Equations Describing Defibrillation of the Heart (2015) (0)
Correction to a model of the stimulation of a nerve fiber by electromagnetic stimulation (1991) (0)
Mechanotransduction in Ischemic Cardiac Tissue: A Mechanical Bidomain Approach under Plane Stress (2019) (0)
Strength – Interval Curves using a Minimal Ionic Model and the Bidomain Model (2016) (0)
Drifting through the beehive. (2014) (0)
The time constants of motor and sensory peripheral nerve fibers measured with a double pulse technique (1993) (0)
Medical Uses of X-Rays (2015) (0)
Author Index to Volume 32 (1984) (0)
Are Electromagnetic Fields Making Me Ill? (2022) (0)
A Comparison of the Effect of Square and Circular Electrodes During Defibrillation (2004) (0)
A perturbation solution of the mechanical bidomain model (2011) (0)
TheMechanical BidomainModel: A Review (2015) (0)
coupling across ventricular wall Optical measurements reveal nature of intercellular (2005) (0)
Electron Paramagnetic Resonance Spectrometer for Three-Dimensional in Vivo Imaging at Very Low Fre (2017) (0)
Calculation of Optical Signal using Bidomain/Diffusion model Reveals Exponential Decay of Transmembrane Potential (2007) (0)
a Unipolar Anode or Cathode lectrical Stimulation of Cardiac Tissue (1995) (0)
Is it possible to detect dendrite currents using presently available magnetic resonance imaging techniques? (2012) (0)
Spherical topology in cardiac simulations (2009) (0)
Impulses in Nerve and Muscle Cells (2015) (0)
BRIEF COMMUNICATION ELECTRICALLY SILENT MAGNETIC FIELDS (2005) (0)
Long versus short duration fibrillation: what's the difference? (2008) (0)
The Bidomain Theory of Stimulation (2021) (0)
Can the electrocardiogram distinguish foci from rotors during ventricular fibrillation? (2017) (0)
Magnetic Resonance Imaging of Dendrite Currents (2011) (0)
Quantitative analysis of four synchronous rotors in cardiac reentry (2000) (0)
Biomagnetism: The First Sixty Years (2023) (0)
The Purpose of Homework Problems is Insight, Not Numbers: Crafting Exercises for an Intermediate Biological Physics Class (2020) (0)

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What Schools Are Affiliated With Bradley J. Roth?

Bradley J. Roth is affiliated with the following schools:

Bradley J. Roth's Academic­Influence.com Rankings

Bradley J. Roth's Degrees

Similar Degrees You Can Earn

Why Is Bradley J. Roth Influential?

Bradley J. Roth's Published Works

Published Works

What Schools Are Affiliated With Bradley J. Roth?

Bradley J. Roth's AcademicInfluence.com Rankings