Barron, John - Department of Computer Science, University of Western Ontario

• IEEE TRANSACTIONS ON PATTERN ANALYSIS AND MACHINE INTELLIGENCE, VOL. NO. MONTH YEAR 1 The Frequency Structure of 1D Occluding Image
• Using 3D Spline Differentiation to Compute Quantitative Optical Flow
• Real-Time, Non-Contact Plant Growth Monitoring at Microscopic Levels using 3D Laser Scanner.
• Journal of Mathematical Imaging and Vision, Volume, 1--23 (Year) fl Year Kluwer Academic Publishers, Boston. Manufactured in The Netherlands.
• Regularised Range Flow Hagen Spies 1;2 , Bernd Jahne 1 , and John L. Barron 2
• IEEE Proc. on Image Processing, Nov., 1994 1 STORM TRACKING IN DOPPLER RADAR IMAGES
• Computer Science Department of The University of Auckland CITR at Tamaki Campus (http://www.citr.auckland.ac.nz)
• High Accuracy Optical Flow Method Based on a Theory for Warping: Implementation and
• Computation of timevarying motion and structure parameters from real image sequences
• Performance of Optical Flow Techniques J.L. Barron 1 , D.J. Fleet 2 and S.S. Beauchemin 1
• A High Resolution Dynamic Heart Model Based On Averaged MRI Data
• On Optical Flow J. L. Barron
• Petri Net-Based Cooperation In Multi-Agent Y.T. Kotb, S.S. Beauchemin, and J.L. Barron
• 3D Least Squares Velocity from 3D Doppler Radial X. Chen, J.L. Barron, R.E. Mercer
• SOUND FROM GRAMOPHONE RECORD GROOVE SURFACE ORIENTATION Baozhong Tian and John L. Barron
• Optical and Range Flow to Measure 3D Plant Growth and Motion
• Differential Range Flow Estimation Hagen Spies 1;2 , Horst Hauecker 1 , Bernd Jahne 1 , and John L. Barron 2
• TRACKING FUZZY STORM CENTERS IN DOPPLER RADAR IMAGES D. Cheng 1 , R. E. Mercer 1 , J. L. Barron 1 and P. Joe 2
• 0.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 0.2 Our Problem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
• The Structure of Occlusion in Fourier Space S. S. Beauchemin
• The Fusion of Image and Range Flow J.L. Barron and H. Spies
• Estimating Expansion Rates from Range Data Sequences Hagen Spies
• Computer Vision and Image Understanding 85, 209231 (2002) doi:10.1006/cviu.2002.0970
• Image Reconstruction Error for Optical Flow
• A WWW interactive progressive local image transmission TiffanyEmil Liptay, John L. Barron and Irene Gargantini
• Motion and Structure from TimeVarying Optical Flow
• Quantitative Depth Recovery from Time-Varying Optical Flow in a Kalman Filter
• Determining Optical Flow for Large Motions Using Parametric Models in a Hierarchical Framework
• BINOCULAR ESTIMATION OF MOTION AND STRUCTURE FROM LONG SEQUENCES USING OPTICAL FLOW WITHOUT CORRESPONDENCE
• Evaluating the Range Flow Motion Constraint Hagen Spies
• 3D Optical Flow Methods in Cardiac Imaging J.V. Condell and yJ.L. Barron
• Evaluating Certainties in Image Intensity Di erentiation for Optical Flow
• The Computation of Optical Flow S.S. Beauchemin and J.L. Barron
• 2 1 APPLICATION GALLERY 1.1 Tracking ``Fuzzy'' Storms in Doppler Radar Images
• Dense Range Flow from Depth and Intensity Data Hagen Spies, Bernd Jahne
• Pattern Recognition 35 (2002) 11531166 www.elsevier.com/locate/patcog
• Experience with 3D Optical Flow on Gated MRI Cardiac Datasets
• Quantitative Regularized Range Flow J.L. Barron
• Quantitative Color Optical Flow John Barron
• 3D Velocity from 3D Doppler Radial Velocity J. L. Barron,1
• Plant Growth Measurement Techniques Using Near-Infrared
• 3D REGULARIZED VELOCITY FROM 3D DOPPLER RADIAL VELOCITY X. Chen, J.L. Barron, R.E. Mercer
• 3D Foveated Visualization on the Web John Schermann, John L. Barron and Irene Gargantini
• Measuring 3D Plant Growth Using Optical Flow J.L. Barron A. Liptay
• A LOW COST, HIGH ACCURACYOPTICAL FLOW METHOD FOR MEASURING 2D AND 3D CORN SEEDLING GROWTH
• Tracking Weather Storms using 3D Doppler Radial Velocity Information
• Reproduction of Sound Signal from Gramophone Records using 3D Scene Reconstruction
• 3D Storm Tracking in 3D Doppler Precipitation Reflectivity Datasets
• ON DISCONTINUOUS OPTICAL FLOW S.S. BEAUCHEMIN and J.L. BARRON
• Tracking 3D Storms using Fuzzy Points Represented as Ellipsoids
• A theory of occlusion in the context of optical flow
• Tracking Severe Weather Storms in Doppler Radar Images D. Cheng 1 , R. E. Mercer 1 , J. L. Barron 1 and P. Joe 2
• Discontinuous Optical Flow: Recent Theoretical Results
• Optical Flow to Measure Minute Increments in Plant Growth J.L. Barron 1 and A. Liptay 2
• A Quantitative Comparison of 4 Algorithms for Recovering Dense Accurate Depth
• Performance characterization in computer vision: A guide to best practices