Access the full text.
Sign up today, get DeepDyve free for 14 days.
G. Cafiero, G. Ceglia, S. Discetti, A. Ianiro, T. Astarita, G. Cardone (2014)
On the three-dimensional precessing jet flow past a sudden expansionExperiments in Fluids, 55
R. Adrian (1988)
Double exposure, multiple-field particle image velocimetry for turbulent probability densityOptics and Lasers in Engineering, 9
F. Billy, L. David, G. Pineau (2004)
Single pixel resolution correlation applied to unsteady flow measurementsMeasurement Science and Technology, 15
C. Kähler, S. Scharnowski, C. Cierpka (2012)
On the resolution limit of digital particle image velocimetryExperiments in Fluids, 52
J. Westerweel, F. Scarano (2005)
Universal outlier detection for PIV dataExperiments in Fluids, 39
T. Astarita (2006)
Analysis of interpolation schemes for image deformation methods in PIV: effect of noise on the accuracy and spatial resolutionExperiments in Fluids, 40
G. Ceglia, S. Discetti, A. Ianiro, D. Michaelis, T. Astarita, G. Cardone (2014)
Three-dimensional organization of the flow structure in a non-reactive model aero engine lean burn injection systemExperimental Thermal and Fluid Science, 52
S. Scharnowski, C. Kähler (2013)
Methods for estimating higher order moments from PIV data
A. Sciacchitano, F. Scarano, B. Wieneke (2012)
Multi-frame pyramid correlation for time-resolved PIVExperiments in Fluids, 53
J. Nogueira, A. Lecuona, P. Rodríguez (2001)
Identification of a new source of peak locking, analysis and its removal in conventional and super-resolution PIV techniquesExperiments in Fluids, 30
R. Hain, C. Kähler (2007)
Fundamentals of multiframe particle image velocimetry (PIV)Experiments in Fluids, 42
T. Astarita, G. Cardone (2005)
Analysis of interpolation schemes for image deformation methods in PIVExperiments in Fluids, 38
J. Westerweel, P. Geelhoed, R. Lindken (2004)
Single-pixel resolution ensemble correlation for micro-PIV applicationsExperiments in Fluids, 37
C. Meinhart, S. Wereley, J. Santiago (2000)
A PIV Algorithm for Estimating Time-Averaged Velocity FieldsJournal of Fluids Engineering-transactions of The Asme, 122
S. Scharnowski, R. Hain, C. Kähler (2012)
Reynolds stress estimation up to single-pixel resolution using PIV-measurementsExperiments in Fluids, 52
A. Prasad (2000)
Particle image velocimetry
R. Adrian, D. Durão, F. Durst, M. Maeda, J. Whitelaw (1991)
Applications of Laser Techniques to Fluid Mechanics
A symmetric correlation approach is proposed to improve the convergence of the single-pixel technique for particle image velocimetry (PIV). Nogueira et al. (Exp Fluids 30:309–316, 2001) introduced this method to remove a source of random errors in PIV when small interrogation windows are used; it consists in applying the cross-correlation operator by considering fixed the first exposure and moving the second one, and vice versa, and then calculating the cross-correlation map as the average of the two maps. The symmetric correlation suppresses the effects of truncation of the particles lying on the border of the interrogation windows. In this paper, the application of symmetric correlation to single-pixel PIV algorithms is reported. Since symmetric direct correlation provides a significant improvement in the cross-correlation peak shape with respect to the standard asymmetric single-pixel implementation, a faster convergence in estimating the average velocity components and turbulence statistics is achieved. An additional improvement is due to the possibly limited correlation between the background noise for the two exposures. The algorithm is tested via synthetic images with imposed constant and sinusoidal displacement and then tested with real data of a jet flow. The technique has shown that the same accuracy of the standard asymmetric approach can be achieved with 50 % of the samples and that a reduction in the measurement error by 30 % is obtained when using the same number of samples.
Experiments in Fluids – Springer Journals
Published: Mar 21, 2015
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.