Access the full text.
Sign up today, get DeepDyve free for 14 days.
Charles Vest (1979)
Holographic Interferometry
A. Kak, M. Slaney (2001)
Principles of computerized tomographic imaging, 33
D. Kastell, K. Kihm, L. Fletcher (1992)
Study of laminar thermal boundary layers occurring around the leading edge of a vertical isothermal wall using a specklegram techniqueExperiments in Fluids, 13
A. Decker (1994)
Tomographic Methods in Flow Diagnostics
David Robinson (1983)
Automatic fringe analysis with a computer image-processing system.Applied optics, 22 14
L. McMackin, B. Masson, N. Clark, K. Bishop, R. Pierson, E. Chen (1995)
Hartmann wave front sensor studies of dynamic organized structure in flowfieldsAIAA Journal, 33
H. Hou, H. Andrews (1978)
Cubic splines for image interpolation and digital filteringIEEE Transactions on Acoustics, Speech, and Signal Processing, 26
M. Fumizawa, K. Okamoto (1993)
Mole fraction distribution in a slow jet forming a stably stratified field / Verteilung der Stoffmengenanteile in einem geschichteten Strömungsfeld mit kleinen GeschwindigkeitenKerntechnik, 58
T. Liu, W. Merzkirch, K. Oberste-Lehn (1988)
Optical tomography applied to speckle photographic measurement of asymmetric flows with variable densityExperiments in Fluids, 7
K. Kihm (1997)
Laser Speckle Photography Technique Applied for Heat and Mass Transfer ProblemsAdvances in heat transfer, 30
D. Verhoeven (1993)
Limited-data computed tomography algorithms for the physical sciences.Applied optics, 32 20
K. Kihm, J. Kim, L. Fletcher (1993)
Investigation of natural convection heat transfer in converging channel flows using a specklegram techniqueJournal of Heat Transfer-transactions of The Asme, 115
M. Françon (1979)
Laser Speckle and Applications in Optics
U. Wernekinck, W. Merzkirch, N. Fomin (1985)
Measurement of light deflection in a turbulent density fieldExperiments in Fluids, 3
K. Hanson, G. Wecksung (1985)
Local basis-function approach to computed tomography.Applied optics, 24 23
An extended algebraic reconstruction technique (ART) is presented for tomographic image reconstruction from the density-gradient projections, such as laser speckle photography. The essence of the extended ART is that the density-gradient projection data of speckle photography (Eq. (1)) are first numerically integrated to the algebraic representation of interferometric fringe number data (Eq. (12)), which ART can readily reconstruct into the cross-sectional field. The extended ART is numerically examined by using two computer synthesized phantom fields, and experimentally by using asymmetric single and double helium jets in air. The experimentally reconstructed images were also compared with the direct measurements of helium concentration using an oxygen analyzing probe. The extended ART method shows an improved accuracy and is proposed to use to tomographically reconstruct the density-gradient projections over the previous Fourier convolution (FC) method (Liu et al. 1989).
Experiments in Fluids – Springer Journals
Published: Nov 4, 1999
Access the full text.
Sign up today, get DeepDyve free for 14 days.