RT Journal Article ID 7713bbf2437b6872 A1 Riou, L. A1 Jacquet, G. A1 Fayolle, J. A1 Jay, Jacques A1 Fouquet, R. T1 A CALIBRATION METHOD OF A TWO-CAMERA SYSTEM IN A FACE-TO-FACE CONFIGURATION DESIGNED FOR FAST-FLOW STUDY JF Journal of Flow Visualization and Image Processing JO JFV YR 2000 FD 2000-06-01 VO 7 IS 2 OP 19 AB The study of high-speed flows with particle image velocimetry (PIV) techniques requires charge-coupled device (CCD) cameras with high image frame rate. However, this kind of camera often has limited performance and is expensive. The use of two standard CCD cameras positioned face to face, on each side of the flow, allows the study of very high-speed flow. This system can produce image pairs at a very short delay of less than 200 ns. It is only limited by the precision of the aperture time of the cameras and by the control system. The recorded images are then transformed in order to be seen with the same point of view. This transformation is determined by the earlier calibration of the two cameras. Classic correlation is then performed on a couple of images belonging to the two cameras. The computed displacement is compared with measures obtained by classic PIV on single camera images. The results are very close (a maximum difference of 0.5 pixel). PB Begell House LK https://www.dl.begellhouse.com/journals/52b74bd3689ab10b,38eff7355b976017,7713bbf2437b6872.html