Abstract
Streaming videos over wireless networks suffers from low video quality due to network ability limitations. The quality of the channel and the characteristics of source play the major role in transmitting video stream over mobile environments. On failure of wireless video transmission, retransmission method was employed to improve the reliability of wireless link. However, retransmission of video leads to significant impact on energy consumption and bounded average waiting time is also increased. The longer waiting time on retransmission results in buffer starvation. Therefore, it is desirable to reduce the variable bit rate of transmitted video signal and increase the stability level when buffer starvation is occurs. In order to overcome such limitation, a technique named Response based Stabilization Analysis (RSA) using Distributed Optimality Bit Rate Allocation (RSA-DOBRA) is proposed in this paper. Initially, video stream is segregated into frames of different classes (i.e., size). Each frame is transmitted based on the variable bit rate response using Optimal Quantization process. Secondly, Linear Lyapunov Functions is employed with RSA to prove the stability of different bit rates on wireless video streaming. The application of Linear Lyapunov Function maintains the stability level of bit rate on different class of frame transmission on wireless link. Finally, Distributed Optimality Bit Rate Allocation uses the time slicing procedure to reduce the bounded average waiting time. RSA performs the time slicing based on multiplexed wireless video transmission on variable bit rate to avoid buffer starvation. RSA at the final stage reduces the energy consumption by improving the reliability of wireless link. Experiment is conducted on factors such as buffered starvation rate, waiting time on video frame transmission, and energy consumption rate.
Highlights
Rapid development in wireless mobile networks is intensifying the desire that services conventionally available in wire-line networks, including audio, video, are made available to wireless mobile users
To assess the performance of Response based Stabilization Analysis (RSA) method and comparison is made with existing methods namely, Mobile Multimedia Streaming Techniques (MMST) [1], Traffic-aware QoS (T-QoS) [2] and Burst Scheduling Procedure (BSP) [3] and Mobility Assisted Dynamic Routing (MADR) algorithm [21,] all five methods were implemented using the NS2 software
The proposed RSA is compared against the existing Mobile Multimedia Streaming Techniques (MMST) [1], Traffic-aware QoS (T-QoS) [2], Burst Scheduling Procedure (BSP) [3], Mobility Assisted Dynamic Routing (MADR) algorithm [21]
Summary
Rapid development in wireless mobile networks is intensifying the desire that services conventionally available in wire-line networks, including audio, video, are made available to wireless mobile users. Several important issues, such as variable bit rate, are unique to wireless mobile networks and justify notable attention. Mobile Multimedia Streaming Techniques (MMST) [1], impact of energy consumption was analyzed using power saving mechanisms. Traffic aware QoS (T-QoS) [2] was designed to address the aspects related to the quality of service measures which improved the throughput being measured at traffic delay.
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