Abstract
The problem of multimedia communications over best-effort networks is addressed here with multiple description coding (MDC) in a distributed framework. In this paper, we first compare four video MDC schemes based on different time splitting patterns and temporal two- or three-band motion-compensated temporal filtering (MCTF). Then, the latter schemes are extended with systematic lossy description coding where the original sequence is separated into two subsequences, one being coded as in the latter schemes, and the other being coded with a Wyner-Ziv (WZ) encoder. This amounts to having a systematic lossy Wyner-Ziv coding of every other frame of each description. This error control approach can be used as an alternative to automatic repeat request (ARQ) or forward error correction (FEC), that is, the additional bitstream can be systematically sent to the decoder or can be requested, as in ARQ. When used as an FEC mechanism, the amount of redundancy is mostly controlled by the quantization of the Wyner-Ziv data. In this context, this approach leads to satisfactory rate-distortion performance at the side decoders, however it suffers from high redundancy which penalizes the central description. To cope with this problem, the approach is then extended to the use of MCTF for the Wyner-Ziv frames, in which case only the low-frequency subbands are WZ-coded and sent in the descriptions.
Highlights
Due to the real-time nature of envisioned data streams, multimedia delivery usually makes use of transport protocols, that is, User Datagram Protocol (UDP) and/or Realtime Transport Protocol (RTP) which do not include control mechanisms which would guarantee a level of Quality of Service (QoS)
A video multiple description coding (MDC) architecture based on temporal splitting of the frames in a sequence followed by motion-compensated temporal filtering (MCTF) has been considered
The results show that both schemes perform better than the 3B MDC scheme at the side decoders for most of the bitrates and that the variation in quality between the frames is reduced, leading to less artifacts
Summary
Due to the real-time nature of envisioned data streams, multimedia delivery usually makes use of transport protocols, that is, User Datagram Protocol (UDP) and/or Realtime Transport Protocol (RTP) which do not include control mechanisms which would guarantee a level of Quality of Service (QoS). This amounts to having a systematic lossy Wyner-Ziv coding of every other frame of each description This error control system can be used as an alternative to ARQ or FEC. The amount of redundancy added in each description is mostly controlled by the quantization of the WynerZiv data This first approach leads to satisfactory RD performance of side decoders, suffers from high redundancy which penalizes the central description, when used as an FEC mechanism. To cope with this problem, the method is extended to the use of motion-compensated temporal filtering for the Wyner-Ziv frames, in which case only the Description 1.
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