We present a new cross-layer ARQ algorithm for video streaming over 802.11 wireless networks. The algorithm combines application-level information about the perceptual and temporal importance of each packet into a single priority value, which drives packet selection at each retransmission opportunity. Hence, only the most most perceptually important packets are retransmitted, delivering higher perceptual quality and less bandwidth usage compared to the standard 802.11 MAC-layer ARQ scheme. H.264 video streaming based on the proposed technique has been simulated using ns in a realistic home network scenario, using the standard ARQ technique for all interfering traffic. Results show that the proposed method consistently outperforms the standard MAC-layer 802.11 retransmission scheme, delivering more than 1.5 dB PSNR gains using approximately half of the retransmission bandwidth.
Design of large systems on a chip would be infeasible without the capability to flexibly adapt the system architecture to the application and the re-use of existing Intellectual Property (IP). This in turn requires the use of an appropriate methodology for system specification, architecture selection, IP integration and implementation generation. The goals of this work are: a) verification of the effectiveness of the POLIS HW/SW co-design methodology for the design of embedded systems for telecom applications; b) definition of a methodology for integrating system level IP libraries in this HW/SW codesign framework. Methodology evaluations have been carried out through the development of an industrial telecom system design, an ATM node server.
Many proposals of input queuing cell switch architectures have recently appeared in the literature. Some have found application in commercial very high speed IP routers. In this paper we discuss the pros and cons of input and output queuing switch architectures, we provide a taxonomy of scheduling algorithms for input queuing switches, and we present comparative performance results for some of the recent proposals of input queuing cell switches. Performance is measured in terms of cell loss probability, as well as average, standard deviation, and 99-th quantile of the cell delay with different traffic patterns. The complexity of the algorithms, and the amount of control information to be exchanged inside the switch for their execution, are also discussed.
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