Effective bandwidth in wireless ATM networks
MobiCom '98 Proceedings of the 4th annual ACM/IEEE international conference on Mobile computing and networking
Bandwidth allocation in wireless networks with guaranteed packet-loss performance
IEEE/ACM Transactions on Networking (TON)
A Generalized Analytical Framework for SMPT in a Multicode CDMA Wireless System
Wireless Personal Communications: An International Journal
Cross-layer error-control with low-overhead ARQ for H.264 video transmission over wireless LANs
Computer Communications
Rate-distortion based real-time wireless video streaming
Image Communication
Journal of Visual Communication and Image Representation
Packet error statistics of LOS broadband fixed wireless access channels
IEEE Transactions on Communications
IEEE Journal on Selected Areas in Communications
A novel design and analysis of cross-layer error-control for h.264 video over wireless LAN
WWIC'06 Proceedings of the 4th international conference on Wired/Wireless Internet Communications
ICCS'06 Proceedings of the 6th international conference on Computational Science - Volume Part IV
RPT: re-architecting loss protection for content-aware networks
NSDI'12 Proceedings of the 9th USENIX conference on Networked Systems Design and Implementation
| Hi-index | 0.07 |
This paper proposes a hybrid ARQ error control scheme based on the concatenation of a Reed-Solomon (RS) code and a rate compatible punctured convolutional (RCPC) code for low-bit-rate video transmission over wireless channels. The concatenated hybrid ARQ scheme we propose combines the advantages of both type-I and type-II hybrid ARQ schemes. Certain error correction capability is provided in each (re)transmitted packet, and the information can be recovered from each transmission or retransmission alone if the errors are within the error correction capability (similar to type-I hybrid ARQ). The retransmitted packet contains redundancy bits which, when combined with the previous transmission, result in a more powerful RS/convolutional concatenated code to recover information if error correction fails for the individual transmissions (similar to type-II hybrid ARQ). Bit-error rate (BER) or signal-to-noise ratio (SNR) of a radio channel changes over time due to mobile movement and fading. The channel quality at any instant depends on the previous channel conditions. For the accurate analysis of the performance of the hybrid ARQ scheme, we use a multistate Markov chain (MSMC) to model the radio channel at the data packet level. We propose a method to partition the range of the received SNR into a set of states for constructing the model so that the difference between the error rate of the real radio channel and that of the MSMC model is minimized. Based on the model, we analyze the performance of the concatenated hybrid ARQ scheme. The results give valuable insight into the effects of the error protection capability in each packet, the mobile speed, and the number of retransmissions. Finally, the transmission of H.263 coded video over a wireless channel with error protection provided by the concatenated hybrid ARQ scheme is studied by means of simulations