Title :
Parallel software implementation of recursive multidimensional digital filters for point-target detection in cluttered infrared scenes
Author :
Kennedy, Hugh L.
Author_Institution :
Defence & Syst. Inst., Univ. of South Australia, Adelaide, SA, Australia
Abstract :
A technique for the enhancement of point targets in clutter is described. The local 3-D spectrum at each pixel is estimated recursively. An optical flow-field for the textured background is then generated using the 3-D autocorrelation function and the local velocity estimates are used to apply high-pass velocity-selective spatiotemporal filters, with finite impulse responses (FIRs), to subtract the background clutter signal, leaving the foreground target signal, plus noise. Parallel software implementations using a multicore central processing unit (CPU) and a graphical processing unit (GPU) are investigated.
Keywords :
filtering theory; image sequences; object detection; 3D autocorrelation function; CPU; GPU; cluttered infrared scenes; finite impulse responses; graphical processing unit; high-pass velocity-selective spatiotemporal filters; local 3D spectrum; local velocity estimates; multicore central processing unit; optical flow-field; point-target detection; recursive multidimensional digital filters; Central Processing Unit; Digital filters; Discrete Fourier transforms; Filter banks; Graphics processing units; Optical filters; Spatiotemporal phenomena; Digital filter; Image processing; Multithreading; Optical flow; Recursive spectrum; Whitening;
Conference_Titel :
Acoustics, Speech and Signal Processing (ICASSP), 2015 IEEE International Conference on
Conference_Location :
South Brisbane, QLD
DOI :
10.1109/ICASSP.2015.7178137
