End-to-end congestion control schemes: utility functions, random losses and ECN marks
IEEE/ACM Transactions on Networking (TON)
Providing QoS to TCP and Real Time Connections in the Internet
Queueing Systems: Theory and Applications
Streaming video delivery over internet with adaptive end-to-end QoS
Journal of Systems and Software - Special issue: Adaptive multimedia computing
Congestion control for multimedia applications in the wireless internet: Research Articles
International Journal of Communication Systems
Application level Wireless Multi-level ECN for Video and Real-time Data
ICNICONSMCL '06 Proceedings of the International Conference on Networking, International Conference on Systems and International Conference on Mobile Communications and Learning Technologies
CIT'11 Proceedings of the 5th WSEAS international conference on Communications and information technology
Practical design and implementation of recognition assisted dynamic surveillance system
Computers and Electrical Engineering
Adaptive frame synchronization for surveillance system across a heterogeneous network
Engineering Applications of Artificial Intelligence
Adaptable system based on Scalable Video Coding for high-quality video service
Computers and Electrical Engineering
The end-to-end QoS guarantee framework for interworking WiMAX PMP and mesh networks with Internet
Computers and Electrical Engineering
Scalable Wireless Video Streaming over Real-Time Publish Subscribe Protocol (RTPS)
DS-RT '13 Proceedings of the 2013 IEEE/ACM 17th International Symposium on Distributed Simulation and Real Time Applications
Load-balancing metrics: Comparison for infrastructure-based wireless networks
Computers and Electrical Engineering
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There has been a surge of interest for multimedia applications over wireless networks in recent years. A colossal number of ways have been proposed to decrease delay, delay jitter and loss in wireless networks and good user-perceived quality in video over internet. This paper studies the multimedia over heterogeneous wireless networks, requirements and problems, and proposes a new scheme to overcome the obstacles. The proposed scheme, takes into account the effects of Application-Level Wireless Multilevel ECN marking (AWMECN), thus helps us overcome the congestion/loss mistake problems. For handoff, handover and lossy link problems, it is considered that a freezing mechanism is in use in application layer and assumed that the upper layers can be aware of disconnection periods to make the rate adaptation decisions. Also a new scheme has been added to receiver to gracefully degrade the quality when no other action is available to combat the long delays without data which is caused by handoffs and wireless temporary disconnections. The transport layer mechanism is chosen to be UDP for avoiding TCP regarding problems. We believe that obtaining a good quality of video depends on good performance of all layers and tried to use the best mechanism in each layer.