Broadcast disks: data management for asymmetric communication environments
SIGMOD '95 Proceedings of the 1995 ACM SIGMOD international conference on Management of data
Performance Analysis of a Pull-Based Parallel Video Server
IEEE Transactions on Parallel and Distributed Systems
Experiences with MPEG-4 multimedia streaming
MULTIMEDIA '01 Proceedings of the ninth ACM international conference on Multimedia
Application-specific Network Management for Energy-Aware Streaming of Popular Multimedia Formats
ATEC '02 Proceedings of the General Track of the annual conference on USENIX Annual Technical Conference
An Adaptive Multimedia Transmission Protocol for Distributed Multimedia Applications
ICDCSW '03 Proceedings of the 23rd International Conference on Distributed Computing Systems
A Comparison of Bandwidth Smoothing Techniques for the Transmission of Prerecorded Compressed Video
INFOCOM '97 Proceedings of the INFOCOM '97. Sixteenth Annual Joint Conference of the IEEE Computer and Communications Societies. Driving the Information Revolution
Scheduling and data distribution in a multiprocessor video server
ICMCS '95 Proceedings of the International Conference on Multimedia Computing and Systems
Power-efficient streaming for mobile terminals
NOSSDAV '05 Proceedings of the international workshop on Network and operating systems support for digital audio and video
AO2P: Ad Hoc On-Demand Position-Based Private Routing Protocol
IEEE Transactions on Mobile Computing
Headlight Prefetching and Dynamic Chaining for Cooperative Media Streaming in Mobile Environments
IEEE Transactions on Mobile Computing
Using crowd-sourced viewing statistics to save energy in wireless video streaming
Proceedings of the 19th annual international conference on Mobile computing & networking
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The QoS-aware delivery model of multimedia is an interesting research area. The wireless networking systems connecting mobile clients and media servers have created the paradigm of mobile multimedia. In mobile multimedia systems, the media delivery model has to maintain two diagonally opposite objectives, such as maintaining QoS of playback and saving energy consumption of the mobile devices. The traditional pull, push, and the hybrid push-pull models of media delivery are not completely suitable to offer consistent QoS of playback while saving the energy consumptions at mobile devices. This article proposes a novel multimedia delivery system based on the Fuzzy Adaptive Buffering (FAB) algorithm using pull model. The FAB algorithm employs a fuzzy inference technique and dynamically adapts to the execution environments. The experimental results illustrate that the FAB algorithm successfully adapts to dynamic execution contexts while maintaining playback-QoS and saving the energy consumption of the mobile clients by keeping the data prefetching thread in the sleeping mode from 31.44% to 97.4% of streaming time depending on the execution environments.