We describe a mechanism for scalable control of multicast continuous media streams. The mechanism uses a novel probing mechanism to solicit feedback information in a scalable manner and to estimate the number of receivers. In addition, it separates the congestion signal from the congestion control algorithm, so as to cope with heterogeneous networks. This mechanism has been implemented in the IVS videoconference system using options within RTP to elicit information about the quality of the video delivered to the receivers. The H.261 coder of IVS then uses this information to adjust its output rate, the goal being to maximize the perceptual quality of the image received at the destinations while minimizing the bandwidth used by the video transmission. We find that our prototype control mechanism is well suited to the Internet environment. Furthermore, it prevents video sources from creating congestion in the Internet. Experiments are underway to investigate how the scalable probing mech...

Abstract not found

. A codesign approach for complex video compression systems is presented. The system is based on a flexible and programmable VLIW (Very Long Instruction Word) architecture. The design approach can be subdivided into two phases: a quantitative analysis for deriving the main processor structure and a cosynthesis for generating the processor hardware and the compiler back-end. The analysis results of different video compression algorithms are summarized. This permits to adapt the processor to a set of related applications rather than to a particular task. A compiled instruction-set simulator for analyzing large data sets is presented. An HTML-based codesign framework is shown which documents and organizes the analysis data. Keywords: Embedded system design, video processing, VLIW processors, performance analysis 1. Introduction A short-time-to market, improvements of design productivity, and a trend towards evermore complex systems are the main motivations for the recent interest in desi...

The purpose of this research project has been to investigate the current state of desktop