Title :
H.264 fractional motion estimation refinement: A real-time and low complexity hardware solution forhd sequences
Author :
Urban, F. ; Poullaouec, R. ; Nezan, J.F. ; Deforges, O.
Author_Institution :
Video Compression Lab., THOMSON RD France, Cesson-Sevigne, France
Abstract :
The MPEG-4 AVC/H.264 video compression standard introduces a high motion estimation complexity. Quarter-pixel accuracy and variable block size enhances compression performances, but increase computation requirements. We propose a low complexity VLSI design for variable block size fractional motion estimation of high definition video sequences. Thanks to an improved datapath a high throughput is achieved with low logic resources. A complete real-time motion estimation application has been prototyped on a heterogeneous platform comprising a DSP and a FPGA. The system achieves motion estimation of 720p sequences at 60 frames per second.
Keywords :
VLSI; data compression; field programmable gate arrays; image sequences; motion estimation; video coding; DSP; FPGA; H.264 fractional motion estimation refinement; HD sequences; MPEG-4 AVC; high definition video sequences; low complexity VLSI design; low complexity hardware solution; quarter pixel accuracy; Accuracy; Computer architecture; Field programmable gate arrays; Hardware; Interpolation; Motion estimation; Parallel processing;
Conference_Titel :
Signal Processing Conference, 2007 15th European
Conference_Location :
Poznan
Print_ISBN :
978-839-2134-04-6
