Abstract
In recent years, with the development of Internet communication technology, more and more people tend to get information through the network. And people prefer multimedia video streaming services. Traditional streaming media technology cannot meet people's needs because of its limitations. Recently, HTTP-based Dynamic Adaptive Streaming Over HTTP (DASH) has emerged as a new approach. In this paper, we consider two hybrid digital and analog video transmission schemes for DASH and propose three methods of enhancing the video quality of experience (QoE) of DASH users. First of all, considering the importance of data to video quality, we propose an energy-aware recombination method of reorganizing and packaging data and define the priority of the generated DASH layer in transmission. Second, we design an adaptive bitrate allocation algorithm to improve bandwidth utilization and video quality. Finally, we propose a retransmission mechanism to address the situation in which the digital stream at the receiving end cannot be decoded due to channel distance errors. Experiments show that our two schemes are superior to traditional DASH schemes.
Highlights
With the development of modern technology, the network brings people various forms of information
RELATED WORK Our work presents an hybrid digital-analog (HDA) video transmission scheme based on the Dynamic Adaptive Streaming Over HTTP (DASH) system framework
SIMULATION RESULTS we compare the performance of the proposed single QP bitrate and multiple QP bitrate schemes with that of the traditional DASH scheme
Summary
With the development of modern technology, the network brings people various forms of information. Most DASH studies improve quality of experience (QoE) by optimizing adaptive bitrate (ABR) allocation algorithms. Some of these algorithms are based on network bandwidth estimation (‘‘rate-based’’ algorithms [2], [3]). To improve bandwidth utilization and video quality, we propose an energy-aware recombination method to reorganize and package analog data to obtain DASH layers with different transmission priorities.
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