Title :
Modeling one- and two-layer variable bit rate video
Author :
Chandra, Kavintha ; Reibman, Amy R.
Author_Institution :
Dept. of Electr. & Comput. Eng., Massachusetts Univ., Lowell, MA, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
This paper presents a source model for VBR video traffic. A finite-state Markov chain is shown to accurately model one- and two-layer video of all activity levels on a per source basis. Our model captures the source dynamics, including the short-term correlations essential for studying network performance. The modeling technique is shown to be applicable for both H.261 and MPEG2 encoded video of a variety of activity levels. The traffic model is shown in a simulation study to be able to accurately characterize both the single-source buffer occupancy over a wide range of buffer sizes and the multiplexing behavior. The VBR video model is also used to model the enhancement layer of two-layer SNR scalable video. We show that two-layer encoding has significantly better statistical multiplexing gains than one-layer video, particularly when the network admits calls based on a leaky-bucket characterization
Keywords :
Markov processes; buffer storage; correlation methods; packet switching; statistical analysis; telecommunication traffic; variable rate codes; video coding; ATM; H.261; MPEG2; VBR video model; VBR video traffic; buffer sizes; call admission; enhancement layer; finite-state Markov chain; leaky-bucket characterization; network performance; one-layer variable bit rate video; short-term correlations; simulation study; single-source buffer occupancy; source dynamics; source model; statistical multiplexing gain; traffic model; two-layer SNR scalable video; two-layer encoding; two-layer variable bit rate video; B-ISDN; Bit rate; Communication networks; Delay; Materials requirements planning; Telecommunication control; Telecommunication traffic; Traffic control; Transform coding; Video compression;
Journal_Title :
Networking, IEEE/ACM Transactions on
