Chakrabarti, Indrajit.

Motion Estimation for Video Coding Efficient Algorithms and Architectures / [electronic resource] : by Indrajit Chakrabarti, Kota Naga Srinivasarao Batta, Sumit Kumar Chatterjee. - XVIII, 157 p. 67 illus. online resource. - Studies in Computational Intelligence, 590 1860-949X ; . - Studies in Computational Intelligence, 590 .

Introduction -- Background and Literature Survey -- VLSI Architecture for Fast Three Step Search Algorithm -- Parallel Architecture for Successive Elimination Block Matching Algorithm -- Fast One-Bit Transformation Architectures -- Efficient Pixel Truncation Algorithm and Architecture -- Introduction to Scalable Image and Video Coding -- Forward Plans -- 8 Forward Plans -- A Matlab Programs -- B Verilog Modules.

The need of video compression in the modern age of visual communication cannot be over-emphasized. This monograph will provide useful information to the postgraduate students and researchers who wish to work in the domain of VLSI design for video processing applications. In this book, one can find an in-depth discussion of several motion estimation algorithms and their VLSI implementation as conceived and developed by the authors. It records an account of research done involving fast three step search, successive elimination, one-bit transformation and its effective combination with diamond search and dynamic pixel truncation techniques. Two appendices provide a number of instances of proof of concept through Matlab and Verilog program segments. In this aspect, the book can be considered as first of its kind. The architectures have been developed with an eye to their applicability in everyday low-power handheld appliances including video camcorders and smartphones.

9783319143767

10.1007/978-3-319-14376-7 doi


Engineering.
Artificial intelligence.
Image processing.
Computational intelligence.
Engineering.
Computational Intelligence.
Image Processing and Computer Vision.
Artificial Intelligence (incl. Robotics).
Signal, Image and Speech Processing.

Q342

006.3