Access the full text.
Sign up today, get DeepDyve free for 14 days.
E. Malkiel, J. Sheng, J. Katz, J. Strickler (2003)
The three-dimensional flow field generated by a feeding calanoid copepod measured using digital holographyJournal of Experimental Biology, 206
U. Schnars, W. Jüptner (2002)
Digital recording and numerical reconstruction of hologramsMeasurement Science and Technology, 13
A. Perry, M. Chong (1994)
Topology of flow patterns in vortex motions and turbulenceFlow Turbulence and Combustion, 53
James Helman, L. Hesselink (1991)
Visualizing vector field topology in fluid flowsIEEE Computer Graphics and Applications, 11
Meihua Li, H. Kudo, Jicun Hu, Roger Johnson (2004)
Improved iterative algorithm for sparse object reconstruction and its performance evaluation with micro-CT dataIEEE Transactions on Nuclear Science, 51
Armin Pobitzer, R. Peikert, Raphael Fuchs, Benjamin Schindler, A. Kuhn, H. Theisel, K. Matkovič, H. Hauser (2011)
The State of the Art in Topology‐Based Visualization of Unsteady FlowComputer Graphics Forum, 30
Hui Meng, Fazle Hussain (1995)
In-line recording and off-axis viewing technique for holographic particle velocimetry.Applied optics, 34 11
J. Kitzhofer, Christoph Brücker (2010)
Tomographic particle tracking velocimetry using telecentric imagingExperiments in Fluids, 49
N Malik, T Dracos, D Papantoniou (1993)
Particle tracking in three dimensional turbulent flows—part II: particle trackingExp Fluids, 15
Klaus Engel, M. Hadwiger, J. Kniss, C. Rezk-Salama, D. Weiskopf (2006)
Real-time volume graphics
G. Haller (2001)
Distinguished material surfaces and coherent structures in three-dimensional fluid flowsPhysica D: Nonlinear Phenomena, 149
Guo-Shi Li, X. Tricoche, D. Weiskopf, C. Hansen (2008)
Flow Charts: Visualization of Vector Fields on Arbitrary SurfacesIEEE Transactions on Visualization and Computer Graphics, 14
P. Biwole, Wei Yan, Yanhui Zhang, J. Roux (2009)
A complete 3D particle tracking algorithm and its applications to the indoor airflow studyMeasurement Science and Technology, 20
W. Steeb (2014)
Solving Ordinary Differential Equations
Ed Boring, A. Pang (1996)
Directional flow visualization of vector fieldsProceedings of Seventh Annual IEEE Visualization '96
A. Laurentini (1997)
How Many 2D Silhouettes Does It Take to Reconstruct a 3D Object?Comput. Vis. Image Underst., 67
M. Arroyo, K. Hinsch (2007)
Recent Developments of PIV towards 3D Measurements, 112
D. Liang, Chunbo Jiang, Ye Li (2003)
Cellular neural network to detect spurious vectors in PIV dataExperiments in Fluids, 34
O. Mattausch, T. Theußl, H. Hauser, E. Gröller (2003)
Strategies for interactive exploration of 3D flow using evenly-spaced illuminated streamlines
G. Haller (2004)
An objective definition of a vortexJournal of Fluid Mechanics, 525
R. Klassen, S. Harrington (1991)
Shadowed hedgehogs: a technique for visualizing 2D slices of 3D vector fieldsProceeding Visualization '91
James Helman, L. Hesselink (1990)
Surface representations of two- and three-dimensional fluid flow topologyProceedings of the First IEEE Conference on Visualization: Visualization `90
Helwig Löffelmann, L. Mroz, E. Gröller, W. Purgathofer (1997)
Stream arrows: enhancing the use of stream surfaces for the visualization of dynamical systemsThe Visual Computer, 13
JL Lumley (1967)
Proceedings of Atmospheric turbulence and radio wave propagation
M. Raffel, J. Westerweel, C. Willert, M. Gharib, J. Kompenhans (1996)
Analytical and experimental investigations of dual‐plane particle image velocimetryOptical Engineering, 35
P. Druault, P. Guibert, F. Alizon (2005)
Use of proper orthogonal decomposition for time interpolation from PIV dataExperiments in Fluids, 39
G. Pan, H. Meng (2003)
Digital holography of particle fields: reconstruction by use of complex amplitude.Applied optics, 42 5
D. Kenwright, Gordon Mallison (1992)
A 3-D streamline tracking algorithm using dual stream functionsProceedings Visualization '92
P. Chakraborty, S. Balachandar, R. Adrian (2005)
On the relationships between local vortex identification schemesJournal of Fluid Mechanics, 535
N. Malik, T. Dracos, Dimitrios Papantoniou (1993)
Particle tracking velocimetry in three-dimensional flowsExperiments in Fluids, 15
L. Sirovich (1987)
Turbulence and the dynamics of coherent structures. I. Coherent structuresQuarterly of Applied Mathematics, 45
J. Wu, J. Gu (1987)
Steady three-dimensional fluid particle separation from arbitrary smooth surface and formation of free vortex layers
C. Brücker (1996)
3-D scanning-particle-image-velocimetry: Technique and application to a spherical cap wake flowFlow Turbulence and Combustion, 56
R. Haimes, D. Kenwright (1999)
On the velocity gradient tensor and fluid feature extraction
R. Peikert, M. Roth (1999)
The "Parallel Vectors" operator-a vector field visualization primitiveProceedings Visualization '99 (Cat. No.99CB37067)
H. Hege, D. Stalling (1997)
Fast LIC with Piecewise Polynomial Filter Kernels
G. Elsinga, F. Scarano, B. Wieneke, B. Oudheusden (2006)
Tomographic particle image velocimetryExperiments in Fluids, 41
F. Sadlo, R. Peikert (2007)
Efficient Visualization of Lagrangian Coherent Structures by Filtered AMR Ridge ExtractionIEEE Transactions on Visualization and Computer Graphics, 13
J. Hunt, A. Wray, P. Moin (1988)
Eddies, streams, and convergence zones in turbulent flows
J. Nie, B. Armaly (2002)
Reattachment of Three-Dimensional Flow Adjacent to Backward-Facing StepJournal of Heat Transfer-transactions of The Asme, 125
Julio Soria, C. Atkinson (2008)
Towards 3C-3D digital holographic fluid velocity vector field measurement—tomographic digital holographic PIV (Tomo-HPIV)Measurement Science and Technology, 19
A. Telea, J. Wijk (2003)
3D IBFV: hardware-accelerated 3D flow visualizationIEEE Visualization, 2003. VIS 2003.
M. Raffel, J. Kompenhans, P. Wernert (1995)
Investigation of the unsteady flow velocity field above an airfoil pitching under deep dynamic stall conditionsExperiments in Fluids, 19
David Lane (1993)
Visualization of time-dependent flow fieldsProceedings Visualization '93
W. Schroeder, C. Volpe, W. Lorensen (1991)
The stream polygon-a technique for 3D vector field visualizationProceeding Visualization '91
R. Wegenkittl, E. Gröller (1997)
Fast oriented line integral convolution for vector field visualization via the InternetProceedings. Visualization '97 (Cat. No. 97CB36155)
F. Sadlo, D. Weiskopf (2010)
Time‐Dependent 2‐D Vector Field Topology: An Approach Inspired by Lagrangian Coherent StructuresComputer Graphics Forum, 29
V. Kolář (2007)
Vortex identification: New requirements and limitationsInternational Journal of Heat and Fluid Flow, 28
A. Surana, G. Jacobs, O. Grunberg, G. Haller (2008)
An exact theory of three-dimensional fixed separation in unsteady flowsPhysics of Fluids, 20
Wen-kai Lu, F. Yin (2004)
Adaptive algebraic reconstruction technique.Medical physics, 31 12
R. Samtaney, D. Silver, N. Zabusky, Jim Cao (1994)
Visualizing features and tracking their evolutionComputer, 27
U. Schnars, W. Jüptner (1994)
Direct recording of holograms by a CCD target and numerical reconstruction.Applied optics, 33 2
B. Hussain (1986)
Coherent structures and turbulenceJournal of Fluid Mechanics, 173
Raphael Fuchs, R. Peikert, H. Hauser, F. Sadlo, P. Muigg (2008)
Parallel Vectors Criteria for Unsteady Flow VorticesIEEE Transactions on Visualization and Computer Graphics, 14
K. Hoyer, M. Holzner, B. Lüthi, M. Guala, Alexander Liberzon, W. Kinzelbach (2005)
3D scanning particle tracking velocimetryExperiments in Fluids, 39
M. Marxen, P. Sullivan, M. Loewen, B. Jähne (2000)
Comparison of Gaussian particle center estimators and the achievable measurement density for particle tracking velocimetryExperiments in Fluids, 29
J. Mullin, W. Dahm (2006)
Dual-plane stereo particle image velocimetry measurements of velocity gradient tensor fields in turbulent shear flow. I. Accuracy assessmentsPhysics of Fluids, 18
Experimental Measurements, G. Carlomagno, C. Brebbia (1984)
Computational Methods and Experimental Measurements
Juan Agüí, Javier Jiménez (1987)
On the performance of particle trackingJournal of Fluid Mechanics, 185
D. Asimov (2003)
Notes on the Topology of Vector Fields and Flows
Vincent Nozick, H. Saito (2007)
Online Multiple View Computation for Autostereoscopic Display
M Halle (1997)
Autostereoscopic displays and computer graphicsComput Graph ACM SIGGRAPH, 31
R. Strawn, D. Kenwright, J. Ahmad (1998)
Computer Visualization Of Vortex Wake Systems
M. Halle (1997)
Autostereoscopic displays and computer graphicsACM SIGGRAPH 2005 Courses
N. Ouellette, Haitao Xu, E. Bodenschatz (2006)
A quantitative study of three-dimensional Lagrangian particle tracking algorithmsExperiments in Fluids, 40
S. Ueng, Christopher Sikorski, K. Ma (1996)
Efficient Streamline, Streamribbon, and Streamtube Constructions on Unstructured GridsIEEE Trans. Vis. Comput. Graph., 2
David Lane (1994)
UFAT-a particle tracer for time-dependent flow fieldsProceedings Visualization '94
C. Willert, B. Stasicki, J. Klinner, S. Moessner (2010)
Pulsed operation of high-power light emitting diodes for imaging flow velocimetryMeasurement Science and Technology, 21
H. Theisel, T. Weinkauf, H. Hege, H. Seidel (2003)
Saddle connectors - an approach to visualizing the topological skeleton of complex 3D vector fieldsIEEE Visualization, 2003. VIS 2003.
C. Willert, M. Gharib (1992)
Three-dimensional particle imaging with a single cameraExperiments in Fluids, 12
F. Pereira, M. Gharib (2002)
Defocusing digital particle image velocimetry and the three-dimensional characterization of two-phase flowsMeasurement Science and Technology, 13
M. Zöckler, D. Stalling, H. Hege (1997)
Parallel Line Integral ConvolutionParallel Comput., 23
C. Garth, X. Tricoche, G. Scheuermann (2004)
Tracking of vector field singularities in unstructured 3D time-dependent datasetsIEEE Visualization 2004
B. Buxton, G. Fitzmaurice (1998)
HMDs, caves & chameleon: a human-centric analysis of interaction in virtual space, 32
Y. Pu, H. Meng (2005)
Four-dimensional dynamic flow measurement by holographic particle image velocimetry.Applied optics, 44 36
T Walsum, FH Post, D Silver, FJ Post (1996)
Feature extraction and iconic visualizationIEEE TVCG, 2
J. Kitzhofer (2011)
Volumetric measurements of the transitional backward facing step flow
Melissa Green, C. Rowley, G. Haller (2007)
Detection of Lagrangian coherent structures in three-dimensional turbulenceJournal of Fluid Mechanics, 572
Han-Wei Shen, D. Kao (1997)
UFLIC: a line integral convolution algorithm for visualizing unsteady flowsProceedings. Visualization '97 (Cat. No. 97CB36155)
C. Atkinson, J. Soria (2007)
Algebraic Reconstruction Techniques for Tomographic Particle Image Velocimetry
J. Willneff (2002)
A spatio-temporal matching algorithm for 3D particle tracking velocimetry
M. Gharib, M. Raffel, O. Ronneberger, J. Kompenhans (1995)
Feasibility study of three-dimensional PIV by correlating images of particles within parallel light sheet planesExperiments in Fluids, 19
F Sadlo, R Peikert (2007)
Efficient visualization of lagrangian coherent structures by filtered AMR ridge extractionTrans Vis Comput Graph, 13
R. Hain, C. Kähler, R. Radespiel (2009)
Principles of a Volumetric Velocity Measurement Technique Based on Optical Aberrations
C. Pun, A. Susanto, D. Dabiri (2007)
Mode-ratio bootstrapping method for PIV outlier correctionMeasurement Science and Technology, 18
F. Scarano, P. Moore (2010)
An advection model to increase the time-resolution of PIV time-series
N. Malik, T. Dracos (1995)
Interpolation Schemes for Three-Dimensional Velocity Fields from Scattered Data Using Taylor ExpansionsJournal of Computational Physics, 119
J. Westerweel, F. Scarano (2005)
Universal outlier detection for PIV dataExperiments in Fluids, 39
A. Surana, O. Grunberg, G. Haller (2006)
Exact theory of three-dimensional flow separation. Part 1. Steady separationJournal of Fluid Mechanics, 564
J. Hultquist (1992)
Constructing stream surfaces in steady 3D vector fieldsProceedings Visualization '92
H. Battke, D. Stalling, H. Hege (1997)
Fast Line Integral Convolution for Arbitrary Surfaces in 3D
H. Theisel, Hans-Peter Seidel (2003)
Feature Flow Fields
D. Kalivas, A. Sawchuk (1991)
A region matching motion estimation algorithmCVGIP Image Underst., 54
RV Klassen, SJ Harrington (1991)
Shadowed hedgehogs: a technique for visualizing 2D slices of 3D vector fieldsIEEE Visualization’, 91
M. Chong, A. Perry, B. Cantwell (1990)
A general classification of three-dimensional flow fieldsPhysics of Fluids, 2
E Bouhoubeiny, P Druault (2009)
Note on the POD-based time interpolation from successive PIV imagesCR Mecanique, 337
M den Haak, HJW Spoelder, FCA Groen (1992)
Matching of images by using automatically selected regions of interestComputer Science in the Netherlands’, 92
H. Theisel, J. Sahner, T. Weinkauf, H. Hege, H. Seidel (2005)
Extraction of parallel vector surfaces in 3D time-dependent fields and application to vortex core line trackingVIS 05. IEEE Visualization, 2005.
S. Coëtmellec, D. Lebrun, C. Ozkul (2002)
Application of the two-dimensional fractional-order Fourier transformation to particle field digital holography.Journal of the Optical Society of America. A, Optics, image science, and vision, 19 8
J. Sahner, T. Weinkauf, Nathalie Teuber, H. Hege (2007)
Vortex and Strain Skeletons in Eulerian and Lagrangian FramesIEEE Transactions on Visualization and Computer Graphics, 13
M. Jiang, R. Machiraju, D. Thompson (2005)
Detection and Visualization of Vortices
Andreas Schröder, R. Geisler, K. Staack, G. Elsinga, F. Scarano, B. Wieneke, Arne Henning, Arne Henning, C. Poelma, J. Westerweel (2011)
Eulerian and Lagrangian views of a turbulent boundary layer flow using time-resolved tomographic PIVExperiments in Fluids, 50
S. Pothos, D. Troolin, W. Lai, R. Menon (2009)
V3V - VOLUMETRIC THREE-COMPONENT VELOCIMETRY FOR 3D FLOW MEASUREMENTS - MAIN PRINCIPLE, THEORY AND APPLICATIONS
T. Akenine-Möller, Eric Haines (2018)
Real-time rendering
M. Ishikawa, Y. Murai, A. Wada, M. Iguchi, K. Okamoto, F. Yamamoto (2000)
A novel algorithm for particle tracking velocimetry using the velocity gradient tensorExperiments in Fluids, 29
H.-G. Maas (1992)
Digitale Photogrammetrie in der dreidimensionalen Strömungsmesstechnik
B. Blundell, A. Schwartz (2000)
Volumetric Three-Dimensional Display Systems
A Surana, G Jacobs, O Grunberg, G Haller (2008)
Exact theory of three-dimensional fixed unsteady separationPhys Fluids, 20
G. Haller (2002)
Lagrangian coherent structures from approximate velocity dataPhysics of Fluids, 14
V. Interrante, C. Grosch (1997)
Strategies for effectively visualizing 3D flow with volume LICProceedings. Visualization '97 (Cat. No. 97CB36155)
G Berkooz, P Holmes, JL Lumley (1993)
The proper orthogonal decomposition in the analysis of turbulent flowsAnnu RevFluid Mech, 25
R. Crawfis, N. Max, Barry Becker, B. Cabral (1993)
Volume rendering of 3D scalar and vector fields at LLNLSupercomputing '93. Proceedings
S. Shadden, F. Lekien, J. Marsden (2005)
Definition and properties of Lagrangian coherent structures from finite-time Lyapunov exponents in two-dimensional aperiodic flowsPhysica D: Nonlinear Phenomena, 212
DS Kalivas, AA Sawchuk (1991)
A region matching motion estimation algorithmComput Vis Graph image process Image underst, 54
Oliver Schreer (2007)
Stereoanalyse und Bildsynthese
E Boring, A Pang (1996)
Directional flow visualization of vector fieldsIEEE Visualization’, 96
Tony McLoughlin, R. Laramee, R. Peikert, F. Post, Min Chen (2010)
Over Two Decades of Integration‐Based, Geometric Flow VisualizationComputer Graphics Forum, 29
T. Walsum, F. Post, D. Silver, Frank Post (1996)
Feature Extraction and Iconic VisualizationIEEE Trans. Vis. Comput. Graph., 2
J. Mullin, W. Dahm (2006)
Dual-plane stereo particle image velocimetry measurements of velocity gradient tensor fields in turbulent shear flow. II. Experimental resultsPhysics of Fluids, 18
Cristina Buraga-Lefebvre, S. Coëtmellec, D. Lebrun, C. Ozkul (2000)
Application of wavelet transform to hologram analysis: three-dimensional location of particlesOptics and Lasers in Engineering, 33
H. Stüer, S. Blaser (2000)
Interpolation of Scattered 3D PTV Data to a Regular GridFlow, Turbulence and Combustion, 64
D. Garcia (2011)
A fast all-in-one method for automated post-processing of PIV dataExperiments in Fluids, 50
R. Hain, C. Kähler, C. Tropea (2007)
Comparison of CCD, CMOS and intensified camerasExperiments in Fluids, 42
V. Venugopal, C. Patterson, K. Shinpaugh (2011)
Accelerating Particle Image Velocimetry Using Hybrid Architectures
G. Fitzmaurice, B. Buxton (1998)
Compatability and interaction style in computer graphics, 32
D. Kenwright (1998)
Automatic detection of open and closed separation and attachment linesProceedings Visualization '98 (Cat. No.98CB36276)
J. Zhou, R. Adrian, S. Balachandar, T. Kendall (1999)
Mechanisms for generating coherent packets of hairpin vortices in channel flowJournal of Fluid Mechanics, 387
Bob Laramee (2002)
Feature Extraction and Visualization of Flow Fields
D. Ebert, F. Musgrave, D. Peachey, K. Perlin, Steven Worley (2011)
Texturing and Modeling, Third Edition: A Procedural Approach (The Morgan Kaufmann Series in Computer Graphics)
D. Barnhart, N. Halliwell, J. Coupland (2001)
Digital holographic velocimetry with bacteriorhodopsin (BR) for real-time recording and numeric reconstruction
R Peikert, F Sadlo (2009)
A robust stream surface method for the visualization of vector field singularitiesComput Graph Geom, 11
P Druault, Ph Guibert (2004)
Use of turbulent flow statistical properties for correcting erroneous velocity vectors in PIVCR Mecanique, 332
H. Gunes, S. Sirisup, G. Karniadakis (2006)
Gappy data: To Krig or not to Krig?J. Comput. Phys., 212
F. Post, B. Vrolijk, H. Hauser, R. Laramee, H. Doleisch (2002)
Feature Extraction and Visualisation of Flow Fields
F. Reinders, F. Post, H. Spoelder (2001)
Visualization of time-dependent data with feature tracking and event detectionThe Visual Computer, 17
C. Upson, T. Faulhaber, D. Kamins, D. Laidlaw, David Schlegel, Jefrey Vroom, Robert Gurwitz, A. Dam (1989)
The application visualization system: a computational environment for scientific visualizationIEEE Computer Graphics and Applications, 9
G. Biswas, M. Breuer, F. Durst (2004)
Backward-Facing Step Flows for Various Expansion Ratios at Low and Moderate Reynolds NumbersJournal of Fluids Engineering-transactions of The Asme, 126
F. Scarano, M. Riethmuller (2000)
Advances in iterative multigrid PIV image processingExperiments in Fluids, 29
S. Morris (2011)
Shear-Layer Instabilities: Particle Image Velocimetry Measurements and Implications for AcousticsAnnual Review of Fluid Mechanics, 43
Y. Awatsuji, A. Fujii, T. Kubota, O. Matoba (2006)
Parallel three-step phase-shifting digital holographyApplied Optics, 45
Helwig Löffelmann, L. Mroz, E. Gröller (1997)
Hierarchical Streamarrows for the Visualization of Dynamical Systems
S. Brunton, C. Rowley (2010)
Fast computation of finite-time Lyapunov exponent fields for unsteady flows.Chaos, 20 1
Elkhadim Bouhoubeiny, P. Druault (2009)
Note on the POD-based time interpolation from successive PIV imagesComptes Rendus Mecanique, 337
Melissa Green, C. Rowley, G. Haller (2006)
Detection of Lagrangian Coherent Structures in 3D TurbulenceBulletin of the American Physical Society, 59
W. Leeuw, R. Liere (1998)
Comparing LIC and spot noiseProceedings Visualization '98 (Cat. No.98CB36276)
T. Weinkauf, H. Theisel (2010)
Streak Lines as Tangent Curves of a Derived Vector FieldIEEE Transactions on Visualization and Computer Graphics, 16
H. Pagendarm, B. Walter (1994)
Feature detection from vector quantities in a numerically simulated hypersonic flow field in combination with experimental flow visualizationProceedings Visualization '94
C. Atkinson, J. Soria (2009)
An efficient simultaneous reconstruction technique for tomographic particle image velocimetryExperiments in Fluids, 47
H. Gunes, U. Rist (2007)
Spatial resolution enhancement/smoothing of stereo–particle-image-velocimetry data using proper-orthogonal-decomposition–based and Kriging interpolation methodsPhysics of Fluids, 19
Harinarayan Krishnan, C. Garth, K. Joy (2009)
Time and Streak Surfaces for Flow Visualization in Large Time-Varying Data SetsIEEE Transactions on Visualization and Computer Graphics, 15
R. Cucitore, M. Quadrio, A. Baron (1999)
On the effectiveness and limitations of local criteria for the identification of a vortexEuropean Journal of Mechanics B-fluids, 18
N. Dodgson (2005)
Autostereoscopic 3D displaysComputer, 38
O. Robinson, D. Rockwell (1993)
Construction of three-dimensional images of flow structure via particle tracking techniquesExperiments in Fluids, 14
D. Shepard (1968)
A two-dimensional interpolation function for irregularly-spaced dataProceedings of the 1968 23rd ACM national conference
T. Schafhitzel, K. Baysal, M. Vaaraniemi, U. Rist, D. Weiskopf (2011)
Visualizing the Evolution and Interaction of Vortices and Shear Layers in Time-Dependent 3D FlowIEEE Transactions on Visualization and Computer Graphics, 17
Jinhee Jeong, F. Hussain (1995)
On the identification of a vortexJournal of Fluid Mechanics, 285
P. Druault, P. Guibert (2004)
Use of turbulent flow statistical properties for correcting erroneous velocity vectors in PIVComptes Rendus Mecanique, 332
B. Lüthi, A. Tsinober, W. Kinzelbach (2005)
Lagrangian measurement of vorticity dynamics in turbulent flowJournal of Fluid Mechanics, 528
James Helman, L. Hesselink (1989)
Representation and display of vector field topology in fluid flow data setsComputer, 22
K. Okamoto, Y. Hassan, W. Schmidl (1995)
New tracking algorithm for particle image velocimetryExperiments in Fluids, 19
A Perry, M Chong (1994)
Topology of flow patterns in vortex motions and turbulenceAppl Sci Res, 53
S. Baek, Sang Lee (1996)
A new two-frame particle tracking algorithm using match probabilityExperiments in Fluids, 22
C Brücker (1996)
3-D scanning-particle-image-velocimetry: technique and application to a spherical cap wake flowAppl Sci Res, 56
F. Scarano, C. Poelma (2009)
Three-dimensional vorticity patterns of cylinder wakesExperiments in Fluids, 47
F. Post, B. Vrolijk, H. Hauser, R. Laramee, H. Doleisch (2003)
The State of the Art in Flow Visualisation: Feature Extraction and TrackingComputer Graphics Forum, 22
A. Sanna, B. Montrucchio, P. Montuschi (2000)
A survey on visualization of vector fields by texture-based methods
D. Ebert, F. Musgrave, D. Peachey, K. Perlin, Steven Worley (1994)
Texturing and Modeling: A Procedural Approach
J. Wijk (1991)
Spot noise texture synthesis for data visualization
H. Maas, A. Stefanidis, A. Gruen (1994)
From pixels to voxels: tracking volume elements in sequences of 3D digital images, 2357
C. Garth, Florian Gerhardt, X. Tricoche, H. Hagen (2007)
Efficient Computation and Visualization of Coherent Structures in Fluid Flow ApplicationsIEEE Transactions on Visualization and Computer Graphics, 13
J. Trolinger, R. Belz, W. Farmer (1969)
Holographic techniques for the study of dynamic particle fields.Applied optics, 8 5
1 Velocity-Aligned Discrete Oriented Polytopes for Dynamic Collision Detection
Jiang Lu, J. Fugal, H. Nordsiek, E. Saw, Raymond Shaw, Weidong Yang (2008)
Lagrangian particle tracking in three dimensions via single-camera in-line digital holographyNew Journal of Physics, 10
B. Cabral, L. Leedom (1993)
Imaging vector fields using line integral convolutionProceedings of the 20th annual conference on Computer graphics and interactive techniques
Y. Salu, D. Montgomery (1977)
Turbulent diffusion from a quasi-kinematical point of viewPhysics of Fluids, 20
M. Brill, H. Hagen, Hans-Christian Rodrian, W. Djatschin, S. Klimenko (1994)
Streamball techniques for flow visualizationProceedings Visualization '94
M. Raffel, C. Willert, S. Wereley, J. Kompenhans (2007)
Post-processing of PIV data
Yuhua Zhu, Tong Zhen (2009)
3D Multi-view Autostereoscopic Display and Its Key Technologie2009 Asia-Pacific Conference on Information Processing, 2
O. Cossairt, J. Napoli, Samuel Hill, R. Dorval, Gregg Favalora (2007)
Occlusion-capable multiview volumetric three-dimensional display.Applied optics, 46 8
D. Kenwright, C. Henze, C. Levit (1999)
Feature Extraction of Separation and Attachment LinesIEEE Trans. Vis. Comput. Graph., 5
L. Hesselink, F. Post, J. Wijk (1994)
Research issues in vector and tensor field visualizationIEEE Computer Graphics and Applications, 14
T. Schafhitzel, Eduardo Tejada, D. Weiskopf, T. Ertl (2007)
Point-based stream surfaces and path surfaces
Frank Post, T. Walsum, F. Post, D. Silver (1995)
Iconic techniques for feature visualizationProceedings Visualization '95
G. Berkooz, P. Holmes, J. Lumley (1993)
The Proper Orthogonal Decomposition in the Analysis of Turbulent FlowsAnnual Review of Fluid Mechanics, 25
Haitao Xu (2008)
Tracking Lagrangian trajectories in position–velocity spaceMeasurement Science and Technology, 19
G. Herman, G. Herman, A. Lent, A. Lent (1976)
Iterative reconstruction algorithms.Computers in biology and medicine, 6 4
F Post, T Walsum (1995)
Iconic techniques for feature visualizationIEEE Visualization’, 95
MA Green, CW Rowley, G Haller (2007)
Detection of lagrangian coherent structures in 3D turbulenceJ Fluid Mech, 572
This review paper addresses the integration of advanced visualization techniques into the analysis of volumetric vector fields obtained by experimental measurement techniques such as holographic PIV, tomographic PIV, 3D PTV or defocusing PIV. The paper follows the idea of the pipeline process for flow visualization focusing on experimental data generation and advanced visualization techniques. The paper tries to help the experimentalist navigating the landscape of recently developed volumetric measurement techniques and advanced visualization techniques. The processing steps and related difficulties are illustrated with the transitional backward facing step flow experiment at Re h = 4,440. The paper shows the usage of flow visualization for quantitative volumetric PIV data analysis.
Experiments in Fluids – Springer Journals
Published: Aug 25, 2011
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.