A Multicast Scheme for Live Streaming Courses in Large-Scale, Geographically Dense Campus Networks

Video courses have become a significant component of modern education. However, the increasing demand for live streaming video courses places considerable strain on the service capabilities of campus networks. The challenges associated with live streaming course videos in campus network environments...

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Veröffentlicht in:	arXiv.org 2024-11
Hauptverfasser:	Wu, Senxin, Hu, Jinlong, Zhang, Ling
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Sprache:	eng
Schlagworte:	Content delivery networks Geographical distribution Multicasting Partitioning Spatial distribution Streaming media Video Virtual networks
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description	Video courses have become a significant component of modern education. However, the increasing demand for live streaming video courses places considerable strain on the service capabilities of campus networks. The challenges associated with live streaming course videos in campus network environments exhibit distinct spatial distribution characteristics. The audience for specific video courses may be highly concentrated in certain areas, leading to a large number of users attempting to access the same live stream simultaneously. Utilizing a Content Delivery Network (CDN) to distribute videos in these campus scenarios creates substantial unicast pressure on edge CDN servers. This paper proposes a two-layer dynamic partitioning Recursive Bit String (RBS) virtual domain network layer multicast architecture specifically designed for large-scale, geographically dense multicast scenarios within campus networks. This approach reduces redundant multicast messages by approximately 10-30\% compared to the two-layer fixed partitioning method. Additionally, it establishes multicast source authentication capabilities based on Source Address Validation Improvement (SAVI) and facilitates secure multicast group key exchange using a concise exchange protocol within the WebRTC framework. In the next-generation data plane of programmable software-defined networks, the RBS stateless multicast technology can be integrated with the unique characteristics of large-scale, geographically dense campus network scenarios to dynamically and efficiently extend multicast coverage to every dormitory.
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subjects	Content delivery networks Geographical distribution Multicasting Partitioning Spatial distribution Streaming media Video Virtual networks
title	A Multicast Scheme for Live Streaming Courses in Large-Scale, Geographically Dense Campus Networks
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