M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, and J. Westerweel, “Main results of the second international PIV challenge,” Exp. Fluids 39, 170–191 (2005).

[CrossRef]

M. Stanislas, K. Okamoto, and C. Kähler, “Main results of the first international PIV Challenge,” Meas. Sci. Technol. 14, R63–R89 (2003).

[CrossRef]

L. Gui and S. Wereley, “A correlation-based continuous window-shift technique to reduce the peak locking effect in digital PIV image evaluation,” Exp. Fluids 32, 506–517 (2002).

[CrossRef]

J. Nogueira, A. Lecuona, and P. Rodriguez, “Identification of a new source of peak locking, analysis and its removal in conventional and super-resolution PIV techniques,” Exp. Fluids 30, 309–316 (2001).

[CrossRef]

F. Scarano and M. L. Riethmuller, “Advances in iterative multigrid PIV image processing,” Exp. Fluids 29, S51–S60 (2000).

[CrossRef]

J. Westerweel, “Fundamentals of digital particle image velocimetry,” Meas. Sci. Technol. 8, 1379–1392 (1997).

[CrossRef]

R. Adrian, “Dynamic ranges of velocity and spatial resolution of particle image velocimetry,” Meas. Sci. Technol. 8, 1393–1398 (1997).

[CrossRef]

J. Westerweel, D. Daribi, and M. Gharib, “The effect of discrete window offset on the accuracy of cross-correlation analysis of digital PIV recording,” Exp. Fluids 23, 20–28 (1997).

[CrossRef]

R. Keane, R. Adrian, and Y. Zhong, “Super-resolution particle imaging velocimetry,” Meas. Sci. Technol. 6, 754–768 (1995).

[CrossRef]

R. Keane and R. Adrian, “Theory of cross-correlation analysis of PIV images,” Appl. Sci. Res. 49, 191–215 (1992).

[CrossRef]

C. Willert and M. Gharib, “Digital particle image velocimetry,” Exp. Fluids 10, 181–193 (1991).

[CrossRef]

R. Adrian, “Particle-imaging techniques for experimental fluid mechanics,” Annu. Rev. Fluid Mech. 23, 261–304 (1991).

[CrossRef]

D. Abdelsalam, M. Stanislas, and S. Coudert, “Highly accurate point spread function estimation for CCD or CMOS camera calibration,” Appl. Opt. (submitted).

R. Adrian, “Dynamic ranges of velocity and spatial resolution of particle image velocimetry,” Meas. Sci. Technol. 8, 1393–1398 (1997).

[CrossRef]

R. Keane, R. Adrian, and Y. Zhong, “Super-resolution particle imaging velocimetry,” Meas. Sci. Technol. 6, 754–768 (1995).

[CrossRef]

R. Keane and R. Adrian, “Theory of cross-correlation analysis of PIV images,” Appl. Sci. Res. 49, 191–215 (1992).

[CrossRef]

R. Adrian, “Particle-imaging techniques for experimental fluid mechanics,” Annu. Rev. Fluid Mech. 23, 261–304 (1991).

[CrossRef]

D. Abdelsalam, M. Stanislas, and S. Coudert, “Highly accurate point spread function estimation for CCD or CMOS camera calibration,” Appl. Opt. (submitted).

J. Westerweel, D. Daribi, and M. Gharib, “The effect of discrete window offset on the accuracy of cross-correlation analysis of digital PIV recording,” Exp. Fluids 23, 20–28 (1997).

[CrossRef]

B. Millat, J. Foucaut, N. Pérenne, and M. Stanislas, “Characterization of different PIV algorithms using the EUROPIV synthetic image generator and real images from a turbulent boundary layer,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

J. Westerweel, D. Daribi, and M. Gharib, “The effect of discrete window offset on the accuracy of cross-correlation analysis of digital PIV recording,” Exp. Fluids 23, 20–28 (1997).

[CrossRef]

C. Willert and M. Gharib, “Digital particle image velocimetry,” Exp. Fluids 10, 181–193 (1991).

[CrossRef]

L. Gui and S. Wereley, “A correlation-based continuous window-shift technique to reduce the peak locking effect in digital PIV image evaluation,” Exp. Fluids 32, 506–517 (2002).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, and J. Westerweel, “Main results of the second international PIV challenge,” Exp. Fluids 39, 170–191 (2005).

[CrossRef]

M. Stanislas, K. Okamoto, and C. Kähler, “Main results of the first international PIV Challenge,” Meas. Sci. Technol. 14, R63–R89 (2003).

[CrossRef]

R. Keane, R. Adrian, and Y. Zhong, “Super-resolution particle imaging velocimetry,” Meas. Sci. Technol. 6, 754–768 (1995).

[CrossRef]

R. Keane and R. Adrian, “Theory of cross-correlation analysis of PIV images,” Appl. Sci. Res. 49, 191–215 (1992).

[CrossRef]

M. Raffel, C. Willert, and J. Kompenhans, Particle Image Velocimetry: A Practical Guide (Springer, 1998).

L. Lourenco and A. Krothapalli, “True resolution PIV, a mesh free second order accurate algorithm,” presented at 10th International Symposium on Application Techniques in Fluid Mechanics, Lisbon, Portugal, 10–13 July2000.

B. Lecordier, J. Lecordier, and M. Trinité, “Iterative sub-pixel algorithm for the cross-correlation PIV measurement,” in Third International Workshop on PIV (University of California Santa-Barbara, 1999), pp. 37–43.

B. Lecordier, J. Westerweel, and J. Nogueira, “The EUROPIV synthetic image generator,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

B. Lecordier, J. Lecordier, and M. Trinité, “Iterative sub-pixel algorithm for the cross-correlation PIV measurement,” in Third International Workshop on PIV (University of California Santa-Barbara, 1999), pp. 37–43.

J. Nogueira, A. Lecuona, and P. Rodriguez, “Identification of a new source of peak locking, analysis and its removal in conventional and super-resolution PIV techniques,” Exp. Fluids 30, 309–316 (2001).

[CrossRef]

L. Lourenco and A. Krothapalli, “True resolution PIV, a mesh free second order accurate algorithm,” presented at 10th International Symposium on Application Techniques in Fluid Mechanics, Lisbon, Portugal, 10–13 July2000.

B. Millat, J. Foucaut, N. Pérenne, and M. Stanislas, “Characterization of different PIV algorithms using the EUROPIV synthetic image generator and real images from a turbulent boundary layer,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

J. Nogueira, A. Lecuona, and P. Rodriguez, “Identification of a new source of peak locking, analysis and its removal in conventional and super-resolution PIV techniques,” Exp. Fluids 30, 309–316 (2001).

[CrossRef]

B. Lecordier, J. Westerweel, and J. Nogueira, “The EUROPIV synthetic image generator,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, and J. Westerweel, “Main results of the second international PIV challenge,” Exp. Fluids 39, 170–191 (2005).

[CrossRef]

M. Stanislas, K. Okamoto, and C. Kähler, “Main results of the first international PIV Challenge,” Meas. Sci. Technol. 14, R63–R89 (2003).

[CrossRef]

B. Millat, J. Foucaut, N. Pérenne, and M. Stanislas, “Characterization of different PIV algorithms using the EUROPIV synthetic image generator and real images from a turbulent boundary layer,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

M. Raffel, C. Willert, and J. Kompenhans, Particle Image Velocimetry: A Practical Guide (Springer, 1998).

F. Scarano and M. L. Riethmuller, “Advances in iterative multigrid PIV image processing,” Exp. Fluids 29, S51–S60 (2000).

[CrossRef]

J. Nogueira, A. Lecuona, and P. Rodriguez, “Identification of a new source of peak locking, analysis and its removal in conventional and super-resolution PIV techniques,” Exp. Fluids 30, 309–316 (2001).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

F. Scarano and M. L. Riethmuller, “Advances in iterative multigrid PIV image processing,” Exp. Fluids 29, S51–S60 (2000).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, and J. Westerweel, “Main results of the second international PIV challenge,” Exp. Fluids 39, 170–191 (2005).

[CrossRef]

M. Stanislas, K. Okamoto, and C. Kähler, “Main results of the first international PIV Challenge,” Meas. Sci. Technol. 14, R63–R89 (2003).

[CrossRef]

B. Millat, J. Foucaut, N. Pérenne, and M. Stanislas, “Characterization of different PIV algorithms using the EUROPIV synthetic image generator and real images from a turbulent boundary layer,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

D. Abdelsalam, M. Stanislas, and S. Coudert, “Highly accurate point spread function estimation for CCD or CMOS camera calibration,” Appl. Opt. (submitted).

B. Lecordier, J. Lecordier, and M. Trinité, “Iterative sub-pixel algorithm for the cross-correlation PIV measurement,” in Third International Workshop on PIV (University of California Santa-Barbara, 1999), pp. 37–43.

L. Gui and S. Wereley, “A correlation-based continuous window-shift technique to reduce the peak locking effect in digital PIV image evaluation,” Exp. Fluids 32, 506–517 (2002).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, and J. Westerweel, “Main results of the second international PIV challenge,” Exp. Fluids 39, 170–191 (2005).

[CrossRef]

J. Westerweel, D. Daribi, and M. Gharib, “The effect of discrete window offset on the accuracy of cross-correlation analysis of digital PIV recording,” Exp. Fluids 23, 20–28 (1997).

[CrossRef]

J. Westerweel, “Fundamentals of digital particle image velocimetry,” Meas. Sci. Technol. 8, 1379–1392 (1997).

[CrossRef]

B. Lecordier, J. Westerweel, and J. Nogueira, “The EUROPIV synthetic image generator,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

C. Willert and M. Gharib, “Digital particle image velocimetry,” Exp. Fluids 10, 181–193 (1991).

[CrossRef]

M. Raffel, C. Willert, and J. Kompenhans, Particle Image Velocimetry: A Practical Guide (Springer, 1998).

R. Keane, R. Adrian, and Y. Zhong, “Super-resolution particle imaging velocimetry,” Meas. Sci. Technol. 6, 754–768 (1995).

[CrossRef]

R. Adrian, “Particle-imaging techniques for experimental fluid mechanics,” Annu. Rev. Fluid Mech. 23, 261–304 (1991).

[CrossRef]

R. Keane and R. Adrian, “Theory of cross-correlation analysis of PIV images,” Appl. Sci. Res. 49, 191–215 (1992).

[CrossRef]

C. Willert and M. Gharib, “Digital particle image velocimetry,” Exp. Fluids 10, 181–193 (1991).

[CrossRef]

J. Westerweel, D. Daribi, and M. Gharib, “The effect of discrete window offset on the accuracy of cross-correlation analysis of digital PIV recording,” Exp. Fluids 23, 20–28 (1997).

[CrossRef]

F. Scarano and M. L. Riethmuller, “Advances in iterative multigrid PIV image processing,” Exp. Fluids 29, S51–S60 (2000).

[CrossRef]

J. Nogueira, A. Lecuona, and P. Rodriguez, “Identification of a new source of peak locking, analysis and its removal in conventional and super-resolution PIV techniques,” Exp. Fluids 30, 309–316 (2001).

[CrossRef]

L. Gui and S. Wereley, “A correlation-based continuous window-shift technique to reduce the peak locking effect in digital PIV image evaluation,” Exp. Fluids 32, 506–517 (2002).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, and J. Westerweel, “Main results of the second international PIV challenge,” Exp. Fluids 39, 170–191 (2005).

[CrossRef]

M. Stanislas, K. Okamoto, C. Kähler, J. Westerweel, and F. Scarano, “Main results of the third international PIV challenge,” Exp. Fluids 45, 27–71 (2008).

[CrossRef]

J. Westerweel, “Fundamentals of digital particle image velocimetry,” Meas. Sci. Technol. 8, 1379–1392 (1997).

[CrossRef]

R. Adrian, “Dynamic ranges of velocity and spatial resolution of particle image velocimetry,” Meas. Sci. Technol. 8, 1393–1398 (1997).

[CrossRef]

M. Stanislas, K. Okamoto, and C. Kähler, “Main results of the first international PIV Challenge,” Meas. Sci. Technol. 14, R63–R89 (2003).

[CrossRef]

R. Keane, R. Adrian, and Y. Zhong, “Super-resolution particle imaging velocimetry,” Meas. Sci. Technol. 6, 754–768 (1995).

[CrossRef]

M. Raffel, C. Willert, and J. Kompenhans, Particle Image Velocimetry: A Practical Guide (Springer, 1998).

L. Lourenco and A. Krothapalli, “True resolution PIV, a mesh free second order accurate algorithm,” presented at 10th International Symposium on Application Techniques in Fluid Mechanics, Lisbon, Portugal, 10–13 July2000.

B. Lecordier, J. Lecordier, and M. Trinité, “Iterative sub-pixel algorithm for the cross-correlation PIV measurement,” in Third International Workshop on PIV (University of California Santa-Barbara, 1999), pp. 37–43.

B. Lecordier, J. Westerweel, and J. Nogueira, “The EUROPIV synthetic image generator,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).

D. Abdelsalam, M. Stanislas, and S. Coudert, “Highly accurate point spread function estimation for CCD or CMOS camera calibration,” Appl. Opt. (submitted).

B. Millat, J. Foucaut, N. Pérenne, and M. Stanislas, “Characterization of different PIV algorithms using the EUROPIV synthetic image generator and real images from a turbulent boundary layer,” in Particle Image Velocimetry: Recent Improvements, M. Stanislas, J. Westerweel, and J. Kompenhans, eds. (Springer-Verlag, 2004).