Title :
The asymptotic closed-loop approach to predictive vector quantizer design with application in video coding
Author :
Khalil, Hosam ; Rose, Kenneth ; Regunathan, Shankar L.
Author_Institution :
Dept. of Electr. & Comput. Eng., California Univ., Santa Barbara, CA, USA
fDate :
1/1/2001 12:00:00 AM
Abstract :
The basic vector quantization (VQ) technique employed in video coding belongs to the category of predictive vector quantization (PVQ), as it involves quantization of the (motion compensated) frame prediction error. It is well known that the design of PVQ suffers from fundamental difficulties, due to the prediction loop, which have an impact on the convergence and the stability of the design procedure. We propose an approach to PVQ design that enjoys the stability of open-loop design while it ensures ultimate optimization of the closed-loop system. The method is derived for general predictive quantization, and we demonstrate it on video compression at low bit rates, where it provides substantial improvement over standard open and closed loop design techniques. Further, the approach outperforms standard DCT-based video coding
Keywords :
closed loop systems; convergence of numerical methods; motion compensation; prediction theory; vector quantisation; video coding; DCT-based video coding; PVQ design; VQ; asymptotic closed-loop; convergence; low bit rate video compression; motion compensated frame prediction error; open-loop design; optimization; predictive vector quantization; predictive vector quantizer design; predictive vector quantizer training; stability; vector quantization; video coding; Bit rate; Convergence; Decorrelation; Discrete cosine transforms; Image coding; Motion compensation; Stability; Vector quantization; Video coding; Video compression;
Journal_Title :
Image Processing, IEEE Transactions on
