Traffic and video quality with adaptive neural compression
Multimedia Systems - Special issue on multimedia networking
TCP over wireless with link level error control: analysis and design methodology
IEEE/ACM Transactions on Networking (TON)
Wireless mesh networks: a survey
Computer Networks and ISDN Systems
On the effects of the packet size distribution on FEC performance
Computer Networks: The International Journal of Computer and Telecommunications Networking - Selected papers from the 3rd international workshop on QoS in multiservice IP networks (QoS-IP 2005)
ITC20'07 Proceedings of the 20th international teletraffic conference on Managing traffic performance in converged networks
Fiber to the home: the next big broadband thing
IEEE Communications Magazine
Loss probabilities for messages with redundant packets feeding a finite buffer
IEEE Journal on Selected Areas in Communications
Video quality and traffic QoS in learning-based subsampled and receiver-interpolated video sequences
IEEE Journal on Selected Areas in Communications
Survey of error recovery techniques for IP-based audio-visual multicast applications
IEEE Network: The Magazine of Global Internetworking
A survey of packet loss recovery techniques for streaming audio
IEEE Network: The Magazine of Global Internetworking
| Hi-index | 0.00 |
This paper considers the packet recovery performance of forward error correction (FEC) for video streaming services over wired-wireless networks. Focusing on a wireless base station, we model it as a single-server queueing system with a Markovian service process in which the state of the server alternates between Good and Bad states. The system has two independent input processes: one is a general renewal input process and the other is a Poisson arrival process. We analyze the packet- and block-level loss probabilities to investigate the recovery performance of FEC at block level. The analysis is validated with simulation experiments driven by real traffic traces. Numerical examples show that the block-loss probability is greatly affected by the system capacity and the mean Bad-state period, and that the recovery performance of FEC deteriorates according to the fluctuation in the packet transmission rate at a wireless base station.