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

fYear

2008

fDate

3-5 Sept. 2008

Firstpage

176

Lastpage

181

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;

fLanguage

English

Publisher

ieee

Conference_Titel

Machine Vision and Image Processing Conference, 2008. IMVIP '08. International

Conference_Location

Portrush

Print_ISBN

978-0-7695-3332-2

Type

conf

DOI

10.1109/IMVIP.2008.11

Filename

4624403