Title :
An Investigation into Optical Flow Computation on FPGA Hardware
Author :
Browne, T.A. ; Condell, J.V. ; Prasad, G. ; McGinnity, T.M.
Author_Institution :
Intell. Syst. Res. Centre, Univ. of Ulster at Magee, Magee
Abstract :
Motion estimation (or optical flow estimation) is an interesting problem in computer vision. However this task is computationally intensive for conventional processors. In this work an investigation into an FPGA-based hardware architecture for real-time motion estimation is carried out. The algorithm used in this paper is a gradient based inverse finite element method for optical flow computation. It carries out the motion estimation by calculating the gradient, Laplacian, and subsequently the velocities of each pixel in a parallel design which aids in the speed of the computation. The algorithm has been benchmarked against many of the well known algorithms cited within the field. A literature review is carried out and the algorithm is discussed. An FPGA design is presented. Preliminary simulation results are shown and discussed.
Keywords :
field programmable gate arrays; finite element analysis; gradient methods; motion estimation; FPGA hardware; computer vision; gradient based inverse finite element method; motion estimation; optical flow computation; optical flow estimation; Computer architecture; Computer vision; Concurrent computing; Field programmable gate arrays; Finite element methods; Hardware; Image motion analysis; Laplace equations; Motion estimation; Optical computing; FPGA; finite element method; optical flow;
Conference_Titel :
Machine Vision and Image Processing Conference, 2008. IMVIP '08. International
Conference_Location :
Portrush
Print_ISBN :
978-0-7695-3332-2
DOI :
10.1109/IMVIP.2008.11
