Viewer-Oriented CDN Scheduling on Crowdsourced Live Video Stream

Yang, Wen; Hu, Yuhan; Ding, Lan; Tian, Ye

doi:10.1109/icece48499.2019.9058519

Cited by 6 publications

(1 citation statement)

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“…The content management and delivery of such services should be structured in such a way as to enhance the quality of customer experience and provide cost-effectiveness to service providers. Several global vendors such as Netflix, YouTube, and Hulu use HAS to deliver the up-to-mark QoE to end-users while keeping in view network quality or QoS [5,6]. The QoS includes delay, packet size, packet loss ratio, jitter, response time, and throughput [7].…”

Section: Introductionmentioning

confidence: 99%

A New Efficient Architecture for Adaptive Bit-Rate Video Streaming

et al. 2021

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The demand for multimedia content over the Internet protocol network is growing exponentially with Internet users’ growth. Despite high reliability and well-defined infrastructure for Internet protocol communication, Quality of Experience (QoE) is the primary focus of multimedia users while getting multimedia contents with flawless or smooth video streaming in less time with high availability. Failure to provide satisfactory QoE results in the churning of the viewers. QoE depends on various factors, such as those related to the network infrastructure that significantly affects perceived quality. Furthermore, the video delivery’s impact also plays an essential role in the overall QoE that can be made efficient by delivering content through specialized content delivery architectures called Content Delivery Networks (CDNs). This article proposes a design that enables effective and efficient streaming, distribution, and caching multimedia content. Moreover, experiments are carried out for the factors impacting QoE, and their behavior is evaluated. The statistical data is taken from real architecture and analysis. Likewise, we have compared the response time and throughput with the varying segment size in adaptive bitrate video streaming. Moreover, resource usage is also analyzed by incorporating the effect of CPU consumption and energy consumption over segment size, which will be counted as effective efforts for sustainable development of multimedia systems. The proposed architecture is validated and indulged as a core component for video streaming based on the use case of a Mobile IPTV solution for 4G/LTE Users.

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Section: Introductionmentioning

confidence: 99%