Title :
Resource-constrained rate control for Motion JPEG2000
Author :
Dagher, Joseph C. ; Bilgin, Ali ; Marcellin, Michael W.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Arizona, Tucson, AZ, USA
Abstract :
With the increasing importance of heterogeneous networks and time-varying communication channels, fine scalability has become a highly desirable feature in both image and video coders. A single highly scalable bitstream can provide precise rate control for constant bitrate (CBR) traffic and accurate quality control for variable bitrate (VBR) traffic. We first propose two leaky-bucket rate allocation methods that provide constant quality video under buffer constraints. These methods can be used with all scalable coders. Moreover, we make use of one of these methods (DBRC) and extend it so that it can be used when multiple sequences are multiplexed over a single communications channel. The goal is to allocate the capacity of the channel between sequences to achieve constant quality across all sequences. Experimental results using Motion JPEG2000 demonstrate substantial benefits.
Keywords :
buffer storage; channel allocation; channel capacity; data compression; image sequences; telecommunication traffic; time-varying channels; variable rate codes; video coding; visual communication; CBR traffic; Motion JPEG2000; VBR traffic; channel capacity allocation; constant bitrate traffic; constant quality video; fine scalability; image coders; leaky-bucket rate allocation; multiple sequences; multisequence video; quality control; resource-constrained rate control; variable bitrate traffic; video coders; video compression; video streaming; Bit rate; Codecs; Communication channels; Communication system control; Communication system traffic control; Image coding; Motion control; Scalability; Streaming media; Videoconference;
Journal_Title :
Image Processing, IEEE Transactions on
DOI :
10.1109/TIP.2003.819228
