Multiple Description Video Multicast in Wireless Ad Hoc Networks
BROADNETS '04 Proceedings of the First International Conference on Broadband Networks
Multiple description video multicast in wireless ad hoc networks
Mobile Networks and Applications - Special issue: Recent advances in wireless networking
Generalized sequence-based and reverse sequence-based models for broadcasting hot videos
IEEE Transactions on Multimedia
Reliable application layer multicast over combined wired and wireless networks
IEEE Transactions on Multimedia
Network resource allocation for competing multiple description transmissions
IEEE Transactions on Communications
Meta-heuristic algorithms for optimized network flow wavelet-based image coding
Applied Soft Computing
Exploiting multiple description coding for intermediate recovery in wireless mesh networks
Journal of Network and Computer Applications
| Hi-index | 754.84 |
Suppose that the description of a stochastic process needs to be sent to a destination through a communication network. Also assume there is a risk that the description may be lost. A technique to reduce the risk of losing such descriptions is by sending two (or more) descriptions and hoping that in this way at least one of the descriptions will get through. This problem is referred to as multiple description coding (MDC) and was first introduced by Gersho, Witsenhausen, Wolf, Wyner, Ziv and Ozarow (1979). So far, the main focus of research on this subject has been on the achievable rate-distortion functions and the related structural design issues for such encoders and decoders. Little effort has focused on the performance of such coding schemes in simple communication networks and relation of the overall distortion with respect to some network parameter such as congestion. In this paper, a double description coding (DDC) system in a simple network represented by a set of parallel queues is studied. Comparison is made with a single description coding system and it is shown that DDC significantly improves the overall average end-to-end distortion at high network loading