Adrian, R.J.[Ronald J.],
Scattering particle characteristics and their effect on pulsed
laser measurements of fluid flow: speckle velocimetry vs
particle image velocimetry,
AppOpt(23), No. 11, June 1, 1984, pp.1690-1691.
BibRef
8406
Englert, S.E.[Sue Ellen],
Sheng, Z.[Zhaoxin],
Kirlin, R.L.[R. Lynn],
The evaluation of a crosscorrelation pattern recognition technique for
flow visualization,
PR(23), No. 3-4, 1990, pp. 237-243.
WWW Version.
0401
BibRef
Villasenor, J.[John],
Vincent, A.[Alain],
An Algorithm for Space Recognition and Time Tracking of
Vorticity Tubes in Turbulence,
CVGIP(55), No. 1, January 1992, pp. 27-35.
WWW Version.
BibRef
9201
Zhong, J.L.,
Huang, T.S.,
Adrian, R.J.,
Extracting 3D Vortices in Turbulent Fluid-Flow,
PAMI(20), No. 2, February 1998, pp. 193-199.
IEEE Abstract.
WWW Version.
9803
Segment the vector field.
BibRef
Ford, R.M.,
Critical-Point Detection in Fluid Flow Images
Using Dynamical System Properties,
PR(30), No. 12, December 1997, pp. 1991-2000.
WWW Version.
9805
BibRef
Earlier:
Critical Point Detection in Fluid Flow Images,
ICIP97(II: 700-703).
IEEE DOI Link
BibRef
Ford, R.M.,
Strickland, R.N.,
Representing and Visualizing Fluid-Flow Images and
Velocimetry Data by Nonlinear Dynamical-Systems,
GMIP(57), No. 6, November 1995, pp. 462-482.
BibRef
9511
Ford, R.M.,
Strickland, R.N.,
Thomas, B.A.,
Image-Models for 2-D Flow Visualization and Compression,
GMIP(56), No. 1, January 1994, pp. 75-93.
BibRef
9401
Nogawa, H.,
Nakajima, Y.,
Sato, Y., and
Tamura, S.,
Acquisition of Symbolic Description from Flow-Fields:
A New Approach Based on a Fluid Model,
PAMI(19), No. 1, January 1997, pp. 58-63.
IEEE Abstract.
WWW Version.
9702
Interpret the flow field, i.e. it is a vortex.
Much more general than the FoE.
BibRef
Miike, H.[Hidetoshi],
Zhang, L.[Lin],
Sakurai, T.[Tatsunari],
Yamada, H.[Hidemi],
Motion enhancement for preprocessing of optical flow detection and
scientific visualization,
PRL(20), No. 5, May 1999, pp. 451-461.
BibRef
9905
Wildes, R.P.[Richard P.],
Amabile, M.J.[Michael J.],
Lanzillotto, A.M.[Ann-Marie],
Leu, T.S.[Tzong-Shyng],
Recovering Estimates of Fluid Flow from Image Sequence Data,
CVIU(80), No. 2, November 2000, pp. 246-266.
0012
WWW Version.
BibRef
Wildes, R.P.,
Amabile, M.J.,
Lanzillotto, A.M.,
Leu, T.S.,
Experiments with and Algorithm for Recovering Fluid Flow
from Video Imagery,
DARPA97(185-192).
BibRef
9700
Wildes, R.P.,
Amabile, M.J.,
Physically Based Fluid Flow Recovery from Image Sequences,
CVPR97(969-975).
IEEE Abstract.
WWW Version.
9704
BibRef
Senet, C.M.,
Seemann, J.,
Ziemer, F.,
The near-surface current velocity determined from image sequences of
the sea surface,
GeoRS(39), No. 3, March 2001, pp. 492-505.
IEEE Top Reference.
0104
BibRef
Corpetti, T.[Thomas],
Mémin, É.[Étienne],
Pérez, P.[Patrick],
Dense Estimation of Fluid Flows,
PAMI(24), No. 3, March 2002, pp. 365-380.
IEEE Abstract.
WWW Version.
0202
See also Energy-based Framework for Dense 3D Registration of Volumetric Brain Images, An.
See also Hierarchical Estimation and Segmentation of Dense Motion Fields.
BibRef
Memin, E.[Etienne],
Perez, P.[Patrick],
Dense/Parametric Estimation of Fluid Flows,
ICIP99(III:732-736).
IEEE Abstract.
BibRef
9900
Corpetti, T.[Thomas],
Mémin, E.[Etienne],
Stochastic Uncertainty Models for the Luminance Consistency Assumption,
IP(21), No. 2, February 2012, pp. 481-493.
IEEE DOI Link
1201
BibRef
Earlier:
Stochastic Models for Local Optical Flow Estimation,
SSVM11(701-712).
Springer DOI Link
1201
BibRef
Cuzol, A.[Anne],
Hellier, P.[Pierre],
Mémin, E.[Etienne],
A Low Dimensional Fluid Motion Estimator,
IJCV(75), No. 3, December 2007, pp. 329-349.
Springer DOI Link
0710
BibRef
Earlier: A1, A3, Only:
A Stochastic Filter for Fluid Motion Tracking,
ICCV05(I: 396-402).
IEEE DOI Link
0510
BibRef
Earlier: A1, A3, Only:
Vortex and Source Particles for Fluid Motion Estimation,
ScaleSpace05(254-266).
WWW Version.
0505
BibRef
Cuzol, A.[Anne],
Mémin, E.[Etienne],
A Stochastic Filtering Technique for Fluid Flow Velocity Fields
Tracking,
PAMI(31), No. 7, July 2009, pp. 1278-1293.
IEEE DOI Link
0905
BibRef
Corpetti, T.[Thomas],
Mémin, E.[Etienne],
Pérez, P.[Patrick],
Extraction of Singular Points from Dense Motion Fields:
An Analytic Approach,
JMIV(19), No. 3, November 2003, pp. 175-198.
WWW Version.
0310
BibRef
Earlier:
Dense Motion Analysis in Fluid Imagery,
ECCV02(I: 676 ff.).
HTML Version.
0205
BibRef
Earlier:
Estimating Fluid Optical Flow,
ICPR00(Vol III: 1033-1036).
IEEE DOI Link
0009
BibRef
Gorthi, S.[Sai],
Beyou, S.[Sébastien],
Corpetti, T.[Thomas],
Mémin, E.[Etienne],
Multiscale Weighted Ensemble Kalman Filter for Fluid Flow Estimation,
SSVM11(749-760).
Springer DOI Link
1201
BibRef
Papadakis, N.[Nicolas],
Corpetti, T.[Thomas],
Memin, E.[Etienne],
Dynamically consistent optical flow estimation,
ICCV07(1-7).
IEEE DOI Link
0710
BibRef
Nakajima, Y.[Yoshikazu],
Inomata, H.[Hiroshi],
Nogawa, H.[Hiroki],
Sato, Y.[Yohshinobu],
Tamura, S.[Shinichi],
Okazaki, K.[Kozo],
Torii, S.[Seiji],
Physics-based flow estimation of fluids,
PR(36), No. 5, May 2003, pp. 1203-1212.
WWW Version.
0301
BibRef
Majumdar, K.K.,
A mathematical model of the nascent cyclone,
GeoRS(41), No. 5, May 2003, pp. 1118-1122.
IEEE Abstract.
0307
BibRef
Otero, J.,
Otero, A.,
Sanchez, L.,
3D motion estimation of bubbles of gas in fluid glass, using an optical
flow gradient technique extended to a third dimension,
MVA(14), No. 3, July 2003, pp. 185-191.
WWW Version.
0308
BibRef
Cassidy, R.[Rachel],
Morrow, P.J.[Philip J.],
McCloskey, J.[John],
A machine vision system for quantifying velocity fields in complex rock
models,
MVA(16), No. 6, 2006, pp. 343-355.
Springer DOI Link
0603
BibRef
Earlier: A1, A3, A2:
Estimating Fluid Flow Velocities: an Image Analysis Approach,
ICIP01(I: 285-288).
IEEE Abstract.
0108
Fluid flow in fractured rock.
BibRef
Tianding, C.[Chen],
An affine-model-based technique for fast DPIV computation,
IVC(24), No. 5, 1 May 2006, pp. 407-410.
WWW Version. Flow visualization; Total optical flow computation; DPIV
0606
BibRef
Ma, J.,
Antoniadis, A.,
Le Dimet, F.X.,
Curvelet-Based Snake for Multiscale Detection and Tracking of
Geophysical Fluids,
GeoRS(44), No. 12, December 2006, pp. 3626-3638.
IEEE DOI Link
0701
BibRef
Ma, J.,
Le Dimet, F.X.,
Deblurring from Highly Incomplete Measurements for Remote Sensing,
GeoRS(47), No. 3, March 2009, pp. 792-802.
IEEE DOI Link
0903
BibRef
Crocker, R.I.,
Matthews, D.K.,
Emery, W.J.,
Baldwin, D.G.,
Computing Coastal Ocean Surface Currents From Infrared and Ocean Color
Satellite Imagery,
GeoRS(45), No. 2, February 2007, pp. 435-447.
IEEE DOI Link
0703
BibRef
Yuan, J.[Jing],
Schnörr, C.[Christoph],
Mémin, E.[Etienne],
Discrete Orthogonal Decomposition and Variational Fluid Flow Estimation,
JMIV(28), No. 1, May 2007, pp. 67-80.
Springer DOI Link
0710
BibRef
Earlier: A1, Plusauthor, A3, A2:
Ruhnau, P.[Paul],
ScaleSpace05(267-278).
WWW Version.
0505
BibRef
Yuan, J.[Jing],
Schnörr, C.[Christoph],
Steidl, G.[Gabriele],
Convex Hodge Decomposition and Regularization of Image Flows,
JMIV(33), No. 2, February 2009, pp. xx-yy.
Springer DOI Link
0903
BibRef
Earlier: A1, A3, A2:
Convex Hodge Decomposition of Image Flows,
DAGM08(xx-yy).
Springer DOI Link
0806
BibRef
Papadakis, N.[Nicolas],
Mémin, É.[Étienne],
A Variational Technique for Time Consistent Tracking of Curves and
Motion,
JMIV(31), No. 1, May 2008, pp. xx-yy.
Springer DOI Link
0804
BibRef
Earlier:
Variational optimal control technique for the tracking of deformable
objects,
ICCV07(1-7).
IEEE DOI Link
0710
BibRef
Earlier:
A Variational Framework for Spatio-temporal Smoothing of Fluid Motions,
SSVM07(603-615).
Springer DOI Link
0705
BibRef
Papadakis, N.[Nicolas],
Memin, E.[Etienne],
Variational Assimilation Of Fluid Motion From Image Sequence,
SIIMS(1), No. 4, 2008, pp. 343-363.
optimal control; dense motion estimation; fluid motion; data assimilation
WWW Version.
WWW Version.
BibRef
0800
Marcello, J.,
Eugenio, F.,
Marques, F.,
Hernandez-Guerra, A.,
Gasull, A.,
Motion Estimation Techniques to Automatically Track Oceanographic
Thermal Structures in Multisensor Image Sequences,
GeoRS(46), No. 9, September 2008, pp. 2743-2762.
IEEE DOI Link
0810
BibRef
Alvarez, L.[Luis],
Castańo, C.[Carlos],
García, M.A.[Miguel A.],
Krissian, K.[Karl],
Mazorra, L.[Luis],
Salgado, A.[Agustín],
Sánchez, J.[Javier],
A new energy-based method for 3D motion estimation of incompressible
PIV flows,
CVIU(113), No. 7, July 2009, pp. 802-810.
Elsevier DOI Link
WWW Version.
0905
BibRef
Earlier:
A Variational Approach for 3D Motion Estimation of Incompressible PIV
Flows,
SSVM07(837-847).
Springer DOI Link
0705
Particle Image Velocimetry; Optical flow; Partial differential
equation; Variational methods; Incompressible flows
See also Variational Approach to 3D Cylindrical Geometry Reconstruction from Multiple Views, A.
BibRef
Fernandes, A.M.[Armando Manuel],
Study on the Automatic Recognition of Oceanic Eddies in Satellite
Images by Ellipse Center Detection: The Iberian Coast Case,
GeoRS(47), No. 8, August 2009, pp. 2478-2491.
IEEE DOI Link
0907
BibRef
Earlier:
Identification of Oceanic Eddies in Satellite Images,
ISVC08(II: 65-74).
Springer DOI Link
0812
BibRef
Kamath, C.[Chandrika],
Gezahegne, A.[Abel],
Miller, P.L.[Paul L.],
Identification of Coherent Structures in Three-dimensional Simulations
of a Fluid-Mix Problem,
IJIG(9), No. 3, July 2009, pp. 389-410.
WWW Version.
0911
BibRef
Earlier: A1, A3, Only:
Image Analysis for Validation of Simulations of a Fluid Mix Problem,
ICIP07(III: 525-528).
IEEE DOI Link
0709
BibRef
Vlasenko, A.[Andrey],
Schnörr, C.[Christoph],
Physically Consistent and Efficient Variational Denoising of Image
Fluid Flow Estimates,
IP(19), No. 3, March 2010, pp. 586-595.
IEEE DOI Link
1003
BibRef
Earlier:
Physically Consistent Variational Denoising of Image Fluid Flow
Estimates,
DAGM08(xx-yy).
Springer DOI Link
0806
BibRef
And:
Superresolution and Denoising of 3D Fluid Flow Estimates,
DAGM09(482-491).
Springer DOI Link
0909
BibRef
Ribas, F.,
Ojeda, E.,
Price, T.D.,
Guillen, J.,
Assessing the Suitability of Video Imaging for Studying the Dynamics of
Nearshore Sandbars in Tideless Beaches,
GeoRS(48), No. 6, June 2010, pp. 2482-2497.
IEEE DOI Link
1006
BibRef
Xu, H.[Huaxun],
Cheng, Z.Q.[Zhi-Quan],
Martin, R.R.[Ralph R.],
Li, S.[Sikun],
3D flow features visualization via fuzzy clustering,
VC(27), No. 6-8, June 2011, pp. 441-449.
WWW Version.
1107
BibRef
Ray, N.,
Computation of Fluid and Particle Motion From a Time-Sequenced Image
Pair: A Global Outlier Identification Approach,
IP(20), No. 10, October 2011, pp. 2925-2936.
IEEE DOI Link
1110
BibRef
Ding, Y.Y.[Yuan-Yuan],
Li, F.[Feng],
Ji, Y.[Yu],
Yu, J.Y.[Jing-Yi],
Dynamic fluid surface acquisition using a camera array,
ICCV11(2478-2485).
IEEE DOI Link
1201
BibRef
Dérian, P.[Pierre],
Héas, P.[Patrick],
Herzet, C.[Cédric],
Mémin, É.[Étienne],
Wavelet-Based Fluid Motion Estimation,
SSVM11(737-748).
Springer DOI Link
1201
BibRef
Syamsuddin, M.R.[Muhammad Rusdi],
Kim, J.[Jinwook],
Controllable Simulation of Particle System,
ISVC11(II: 715-724).
Springer DOI Link
1109
BibRef
Rohith, M.V.,
Parishani, H.[Hossein],
Ayala, O.[Orlando],
Wang, L.P.[Lian-Ping],
Kambhamettu, C.[Chandra],
CollisionExplorer:
A Tool for Visualizing Droplet Collisions in a Turbulent Flow,
ISVC11(II: 669-680).
Springer DOI Link
1109
BibRef
Liu, W.[Wei],
Ribeiro, E.[Eraldo],
A Higher-Order Model for Fluid Motion Estimation,
ICIAR11(I: 325-334).
Springer DOI Link
1106
BibRef
Pickup, D.[David],
Li, C.[Chuan],
Cosker, D.[Darren],
Hall, P.[Peter],
Willis, P.[Phil],
Reconstructing Mass-Conserved Water Surfaces Using Shape from Shading
and Optical Flow,
ACCV10(IV: 189-201).
Springer DOI Link
1011
Water from real video. Vision and physics.
Shape from shading for surface, vertical gradient for motion.
BibRef
Xie, Z.X.[Zai-Xian],
Ward, M.O.[Matthew O.],
Rundensteiner, E.A.[Elke A.],
Visual Exploration of Stream Pattern Changes Using a Data-Driven
Framework,
ISVC10(II: 522-532).
Springer DOI Link
1011
visualize data stream changes.
BibRef
Pelfrey, B.[Brandon],
House, D.[Donald],
Adaptive Neighbor Pairing for Smoothed Particle Hydrodynamics,
ISVC10(II: 192-201).
Springer DOI Link
1011
Simulation of fluid properties.
BibRef
Rohrschneider, M.[Markus],
Ullrich, A.[Alexander],
Kerren, A.[Andreas],
Stadler, P.F.[Peter F.],
Scheuermann, G.[Gerik],
Visual Network Analysis of Dynamic Metabolic Pathways,
ISVC10(I: 316-327).
Springer DOI Link
1011
BibRef
Kobayashi, J.,
Bi, C.K.[Chong-Ke],
Takahashi, S.,
Sophisticated Construction and Search of 2D Motion Graphs for
Synthesizing Videos,
PSIVT10(487-494).
IEEE DOI Link
1011
BibRef
Bi, C.K.[Chong-Ke],
Takahashi, S.[Shigeo],
Fujishiro, I.[Issei],
Interpolating 3D Diffusion Tensors in 2D Planar Domain by Locating
Degenerate Lines,
ISVC10(I: 328-337).
Springer DOI Link
1011
Visualizing biological processes.
BibRef
Burch, M.[Michael],
Schmauder, H.[Hansjörg],
Weiskopf, D.[Daniel],
Indented Pixel Tree Browser for Exploring Huge Hierarchies,
ISVC11(I: 301-312).
Springer DOI Link
1109
BibRef
Tague, R.[Rhys],
Maeder, A.[Anthony],
Nguyen, Q.V.[Quang Vinh],
Interactive Visualisation of Time-Based Vital Signs,
ISVC10(II: 545-553).
Springer DOI Link
1011
BibRef
Stab, C.[Christian],
Nazemi, K.[Kawa],
Fellner, D.W.[Dieter W.],
SemaTime: Timeline Visualization of Time-Dependent Relations and
Semantics,
ISVC10(III: 514-523).
Springer DOI Link
1011
BibRef
Regert, T.[Tamas],
Tremblais, B.[Benoit],
David, L.[Laurent],
Parallelized 3D optical flow method for fluid mechanics applications,
3DPVT10(xx-yy).
WWW Version.
1005
BibRef
Xu, T.[Tao],
Cheng, I.[Irene],
Mandal, M.[Mrinal],
An Improved Fluid Vector Flow for Cavity Segmentation in Chest
Radiographs,
ICPR10(3376-3379).
IEEE DOI Link
1008
BibRef
Li, F.[Feng],
Xu, L.[Liwei],
Guyenne, P.[Philippe],
Yu, J.Y.[Jing-Yi],
Recovering fluid-type motions using Navier-Stokes potential flow,
CVPR10(2448-2455).
IEEE DOI Link
1006
BibRef
Taati, B.[Babak],
Snoek, J.[Jasper],
Giesbrecht, D.[David],
Mihailidis, A.[Alex],
Water Flow Detection in a Handwashing Task,
CRV10(175-182).
IEEE DOI Link
1005
BibRef
Olufemi, A.F.[A. Folorunso],
Sunar, M.S.[Mohammed Shahrizal],
Kari, S.[Sarudin],
An Algorithm for Treating Uncertainties in the Visualization of
Pipeline Sensors' Datasets,
IVIC09(561-572).
Springer DOI Link
0911
BibRef
Karim, S.A.A.[Samsul Ariffin Abdul],
Hussain, M.Z.[Malik Zawwar],
Erratum to: Visualization of Positive and Monotone Data by Rational
Quadratic Spline,
IVIC09(916).
Springer DOI Link
0911
BibRef
And:
Retracted: Visualization of Positive and Monotone Data by Rational
Quadratic Spline,
IVIC09(436-447).
Springer DOI Link
0911
BibRef
Vafadar, B.,
Wu, B.[Bing],
Bones, P.J.,
A statistical method for display and segmentation of 3D image data,
IVCNZ09(148-152).
IEEE DOI Link
0911
BibRef
Thakur, S.[Sidharth],
Rhyne, T.M.[Theresa-Marie],
Data Vases: 2D and 3D Plots for Visualizing Multiple Time Series,
ISVC09(II: 929-938).
Springer DOI Link
0911
BibRef
Li, Z.L.[Zhan-Li],
Liu, Y.T.[Yun-Ting],
Research on the Visualization and Simulation of Branch Breaking Based
on Physical and Stochastic Approaches,
CISP09(1-4).
IEEE DOI Link
0910
BibRef
Liu, J.[Jian],
Zhang, X.[Xin],
Li, K.[Kai],
Study on Data Process and Visualization System of Tide and Tidal
Current,
CISP09(1-5).
IEEE DOI Link
0910
BibRef
Liu, J.[Jian],
Zhang, X.[Xin],
Li, K.[Kai],
Study on Dynamical Visualization of Marine Current Data Field Based on
Base State with Amendments Spatio-Temporal Model,
CISP09(1-5).
IEEE DOI Link
0910
BibRef
Ling, W.X.[Wu Xi],
Xing, W.X.[Wang Xiao],
Simulation and Experimental Studies on the Stratified Flow of Gas-Water
by Electromagnetic Tomography,
CISP09(1-5).
IEEE DOI Link
0910
BibRef
Wang, E.P.[Er-Peng],
Sun, B.[Bin],
Qian, F.[Fei],
Design of Fuzzy Identification System for Patterns of Gas-Liquid
Two-Phase Flow on LabVIEW,
CISP09(1-4).
IEEE DOI Link
0910
BibRef
Wang, H.Y.[Hong-Yi],
Dong, F.[Feng],
A Effective Image Matching Method for Bubbly Flow Based on Wavelet
Transform,
CISP09(1-5).
IEEE DOI Link
0910
BibRef
Seppke, B.,
Gade, M.,
Dreschler-Fischer, L.,
Sea Surface Current Fields in the Baltic Sea Derived From Multi-Sensor
Satellite Data,
HighRes09(xx-yy).
PDF Version.
0906
BibRef
Bendicks, C.[Christian],
Tarlet, D.[Dominique],
Michaelis, B.[Bernd],
Thévenin, D.[Dominique],
Wunderlich, B.[Bernd],
Use of Coloured Tracers in Gas Flow Experiments for a Lagrangian Flow
Analysis with Increased Tracer Density,
DAGM09(392-401).
Springer DOI Link
0909
BibRef
Chen, X.[Xiaofen],
Xie, C.[Cui],
Wei, Z.Q.[Zhi-Qiang],
Feature detection and visualization of ocean flow field sources, sinks
based on vector field decomposition,
IASP09(260-264).
IEEE DOI Link
0904
BibRef
Hao, S.Q.[Shu-Qing],
Yin, K.[Kun],
Huang, H.W.[Hong-Wei],
Reverse circulation bit fluid field calculation,
IASP09(313-316).
IEEE DOI Link
0904
BibRef
Mohr, J.L.,
Johnston, R.A.,
Cottrell, P.L.,
Detection of wind velocities from scintillation images,
IVCNZ08(1-6).
IEEE DOI Link
0811
SCIDAR (SCIntillation Detection And Ranging).
BibRef
Borges, P.V.K.[Paulo Vinicius Koerich],
Mayer, J.[Joceli],
Izquierdo, E.[Ebroul],
A probabilistic model for flood detection in video sequences,
ICIP08(13-16).
IEEE DOI Link
0810
BibRef
Park, J.Y.[Ji-Young],
Cho, S.H.[Sang-Hyun],
Choi, J.G.[Jung-Gil],
Kim, M.H.[Myoung-Hee],
Immersive Visualization of Casting Flow and Solidification,
ISVC08(II: 980-989).
Springer DOI Link
0812
BibRef
Weiss, K.[Kenneth],
de Floriani, L.[Leila],
Modeling and Visualization Approaches for Time-Varying Volumetric Data,
ISVC08(II: 1000-1010).
Springer DOI Link
0812
BibRef
Um, K.[Kiwon],
Han, J.H.[Jung-Hyun],
Leaking Fluids,
ISVC08(I: 1135-1143).
Springer DOI Link
0812
Simulate flow through a boundary.
BibRef
Bohrer, G.[Gil],
Longo, M.[Marcos],
Zielinski, D.J.[David J.],
Brady, R.[Rachael],
VR Visualisation as an Interdisciplinary Collaborative Data Exploration
Tool for Large Eddy Simulations of Biosphere-Atmosphere Interactions,
ISVC08(I: 856-866).
Springer DOI Link
0812
BibRef
Sanyal, J.,
Amburn, P.,
Zhang, S.,
Dyer, J.,
Fitzpatrick, P.J.,
Moorhead, R.J.,
User Experience of Hurricane Visualization in an Immersive 3D
Environment,
ISVC08(I: 867-878).
Springer DOI Link
0812
BibRef
Ueng, S.K.[Shyh-Kuang],
Chiang, Y.C.[Yu-Chong],
Wind Field Retrieval and Display for Doppler Radar Data,
ISVC08(I: 171-182).
Springer DOI Link
0812
BibRef
Franco, H.[Hugo],
Perea, Á.[Álvaro],
Romero, E.[Eduardo],
Rodríguez, D.[Daniel],
Fluid Flow Measurement in Thermographic Video Sequences by
Wavelet-Multiresolution Optical Flow Estimation,
ACIVS08(xx-yy).
Springer DOI Link
0810
BibRef
Ravela, S.[Sai],
Marshall, J.[John],
Hill, C.[Chris],
Wong, A.[Andrew],
Stransky, S.[Scott],
Tracking rotating fluids in realtime using snapshots,
CVPR08(1-8).
IEEE DOI Link
0806
BibRef
Isambert, T.[Till],
Berroir, J.P.[Jean-Paul],
Herlin, I.[Isabelle],
A Multi-scale Vector Spline Method for Estimating the Fluids Motion on
Satellite Images,
ECCV08(IV: 665-676).
Springer DOI Link
0810
BibRef
Earlier:
Fast and Stable Vector Spline Method for Fluid Apparent Motion
Estimation,
ICIP07(II: 505-508).
IEEE DOI Link
0709
BibRef
Garbe, C.S.[Christoph S.],
Fluid Flow Estimation Through Integration of Physical Flow
Configurations,
DAGM07(92-101).
Springer DOI Link
0709
BibRef
Zéraď, M.[Mourad],
Image Denoising by Harmonic Mean Curvature Flow,
SSVM09(565-575).
Springer DOI Link
0906
BibRef
Zéraď, M.[Mourad],
Moakher, M.[Maher],
Riemannian Curvature-Driven Flows for Tensor-Valued Data,
SSVM07(592-602).
Springer DOI Link
0705
BibRef
Moolani, V.[Veena],
Balasubramanian, R.[Ramprasad],
Shen, L.[Li],
Tandon, A.[Amit],
Shape Analysis and Spatio-Temporal Tracking of Mesoscale Eddies in
Miami Isopycnic Coordinate Ocean Model,
3DPVT06(663-670).
IEEE DOI Link
0606
BibRef
Jehle, M.[Markus],
Jähne, B.[Bernd],
Kertzscher, U.[Ulrich],
Direct Estimation of the Wall Shear Rate Using Parametric Motion Models
in 3D,
DAGM06(434-443).
Springer DOI Link
0610
BibRef
Liu, X.U.[Xin U.],
Nixon, M.S.[Mark S.],
Image and Volume Segmentation by Water Flow,
ISVC07(II: 62-74).
Springer DOI Link
0711
BibRef
Earlier:
Water Flow Based Complex Feature Extraction,
ACIVS06(833-845).
Springer DOI Link
0609
BibRef
Korzhova, V.N.[Valentina N.],
Goldgof, D.B.[Dmitry B.],
Sisoev, G.M.[Grigori M.],
Detection of Spiral Waves in Video,
ICPR06(I: 396-399).
WWW Version.
0609
BibRef
Arnaud, E.[Elise],
Mémin, E.[Etienne],
Sosa, R.[Roberto],
Artana, G.[Guillermo],
A Fluid Motion Estimator for Schlieren Image Velocimetry,
ECCV06(I: 198-210).
Springer DOI Link
0608
BibRef
Sood, V.,
John, B.,
Balasubramanian, R.,
Tandon, A.,
Segmentation and Tracking of Mesoscale Eddies in Numeric Ocean Models,
ICIP05(III: 469-472).
IEEE DOI Link
0512
BibRef
Zhang, Y.J.[Yun-Jun],
Dynamic Water Motion Analysis and Rendering,
ICIAR05(796-803).
Springer DOI Link
0509
BibRef
Klein, T.[Thomas],
Ertl, T.[Thomas],
Illustrating Magnetic Field Lines using a Discrete Particle Model,
VMV04(387-394).
0411
BibRef
Scholz, V.[Volker],
Magnor, M.A.[Marcus A.],
Cloth Motion from Optical Flow,
VMV04(117-124).
0411
BibRef
Ihrke, I.[Ivo],
Goldlücke, B.[Bastian],
Magnor, M.A.[Marcus A.],
Reconstructing the Geometry of Flowing Water,
ICCV05(II: 1055-1060).
IEEE DOI Link
0510
BibRef
Biancardi, A.[Alberto],
Ghilardi, P.[Paolo],
Pagliardi, M.[Matteo],
Automatic Mask Extraction for PIV-Based Dam-Break Analysis,
IbPRIA05(II:705).
Springer DOI Link
0509
Analysis of debris flows.
PIV: Particle Imaging Velocimetry.
BibRef
Biancardi, A.[Alberto],
Ghilardi, P.[Paolo],
Pagliardi, M.[Matteo],
Dry Granular Flows Need Special Tools,
CRV05(514-520).
IEEE DOI Link
0505
BibRef
Heroor, S.,
Cohen, I.,
Affine layer segmentation and adjacency graphs for vortex detection,
ICPR04(IV: 223-226).
IEEE DOI Link
0409
BibRef
Jähne, B.,
Image Sequence Analysis in Environmental and Live Sciences,
DAGM03(608-617).
HTML Version.
0310
Estimation of the parameters of dynamic processes including motion fields.
BibRef
Suchecki, W.[Witold],
Urbaniec, K.[Krzysztof],
A Method to Analyse the Motion of Solid Particle in Oscillatory Stream
of a Viscous Liquid,
CAIP01(357 ff.).
HTML Version.
0210
BibRef
Weiskopf, D.,
Hopf, M.,
Ertl, T.,
Hardware-Accelerated Visualization of Time-Varying 2-D and 3-D Vector
Fields by Texture Advection via Programmable Per-Pixel Operations,
VMV01(xx-yy).
PDF Version.
0209
BibRef
Wischgoll, T.,
Scheuermann, G.,
Hagen, H.,
Tracking Closed Streamlines in Time-Dependent Planar Flows,
VMV01(xx-yy).
PDF Version.
0209
BibRef
Yang, Q.[Qing],
Parvin, B.[Bahram],
Feature based Visualization of Geophysical Data,
CVPR00(II: 276-281).
IEEE Abstract.
WWW Version.
0005
Extract flow features
BibRef
Yang, Q.,
Parvin, B.,
Mariano, A.,
Singular Features in Sea Surface Temperature Data,
ICPR00(Vol I: 516-520).
IEEE DOI Link
0009
Analyze flows and velocities in the data.
BibRef
Qiu, M.,
Let us Suppose a Liquid Optical Flow in Images:
The Validity of Optical Flow Revisited,
ICIP00(Vol I: 864-867).
IEEE Abstract.
0008
BibRef
Béréziat, D.[Dominique],
Herlin, I.[Isabelle],
Younes, L.[Laurent],
A Generalized Optical Flow Constraint and its Physical Interpretation,
CVPR00(II: 487-492).
IEEE Abstract.
WWW Version.
0005
BibRef
Emin, E.M.,
Perez, P.,
Fluid Motion Recovery by Coupling Dense and Parametric Vector Fields,
ICCV99(620-625).
IEEE DOI Link
BibRef
9900
Maurizot, M.[Mariette],
Bouthemy, P.[Patrick],
Delyon, B.[Bernard],
2D Fluid Motion Analysis from a Single Image,
CVPR98(184-189).
IEEE Abstract.
BibRef
9800
Hu, P.C.[Po-Chin],
Strickland, R.N.[Robin N.],
Detection of Vortices in Flow Images using the Wavelet Transform,
ICIP99(II:740-744).
IEEE Abstract.
BibRef
9900
Rodrigues, P.S.S.,
de Albuquerque Araújo, A.[Arnaldo],
Pinotti, M.,
Describing patterns in flow-like images,
CIAP99(424-429).
IEEE DOI Link
9909
BibRef
Bailey, D.G.,
Shand, R.D.,
Determining large scale sandbar behaviour,
ICIP96(II: 637-640).
IEEE DOI Link
9610
BibRef
Zhong, J.,
Huang, T.S.,
Adrian, R.J.,
Salient Structure Analysis for Fluid Flow,
CVPR94(310-315).
IEEE Abstract.
BibRef
9400
Maas, H.G.,
Stefanidis, A.,
Gruen, A.,
Feature tracking in 3-D fluid tomography sequences,
ICIP94(I: 530-534).
IEEE DOI Link
9411
BibRef
Buga, S.G.,
Blank, V.D.,
Ivanov, N.,
Computer visualization of pressure distribution and substance flow in
diamond anvil cells,
ICPR92(I:181-184).
IEEE DOI Link
9208
BibRef
Tang, H.M.[Hui-Ming],
Xu, S.R.[Sheng-Rong],
Detection of direction and wavelength of ocean wave by power spectrum
of ocean wave image,
ICPR92(III:164-166).
IEEE DOI Link
9208
BibRef
Chapter on Optical Flow Field Computations and Use continues in
Surface Reconstruction from Optical Flow .