Alternative bandwidth allocation: algorithms for packet video in ATM networks
IEEE INFOCOM '92 Proceedings of the eleventh annual joint conference of the IEEE computer and communications societies on One world through communications (Vol. 3)
Optimization of the grouped sweeping scheduling (GSS) with heterogeneous multimedia streams
MULTIMEDIA '93 Proceedings of the first ACM international conference on Multimedia
I/O issues in a multimedia system
Computer
Analysis, modeling and generation of self-similar VBR video traffic
SIGCOMM '94 Proceedings of the conference on Communications architectures, protocols and applications
Schemes for implementing buffer sharing in continuous-media systems
Information Systems - Special issue: multimedia information systems
Issues in storage and retrieval of multimedia data
Multimedia Systems - Special issue on multimedia database systems
Fundamentals of Applied Probability Theory
Fundamentals of Applied Probability Theory
Resource consumption-aware QoS in cluster-based VOD servers
Journal of Systems Architecture: the EUROMICRO Journal
Agent based infrastructure for real-time applications
Annales UMCS, Informatica
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Video-on-demand (VOD) servers need to be efficiently designed in order to support a large number of users viewing the same or different videos at different rates. While considering a disk-array based VOD server, use of a shared buffer at the server end may be more economical than the sole use of dedicated buffers at each user's end. In this paper, we propose a simple buffer sharing architecture that may be used when disk-array based video servers are used. Our aim is to support the maximum number of users for a given number of video server disks while employing a simple scheme requiring less buffer space. The number of video segment retrievals that can occur within a certain time (the service round) is maximum when the scan disk scheduling algorithm is used. Consequently, we shall assume use of the scan algorithm for disk retrieval. The VOD server has a buffer manager that directs retrieved segments to appropriate buffer locations depending on their release and deadlines. The release and deadlines of segments are such that buffer requirement at the user's set-top box is minimized to two video segments while avoiding video starvation and buffer overflow at the user's end. We propose a novel scheme for the operation of the shared buffer that aims at increasing buffer utilization and decreasing cell loss due to buffer overflow. An ATM based broadband network is assumed and all segments are stored in buffers as fixed length ATM cells.