Abstract
Information-centric networking (ICN) is expected to be a candidate for future internet architecture, and it supports features such as multicast that improves bandwidth utilization and transmission efficiency. However, multicast itself does not provide congestion control. When multiple multicast groups coexist, multicast traffic may exhaust all network resources, and cause network congestion and packet loss. Additionally, traditional IP multicast congestion control mechanisms cannot be directly applied to ICN architecture. Therefore, it is necessary to consider an effective congestion control mechanism for ICN multicast. This paper proposes a single-rate multicast congestion control mechanism, called SRMCC. It supports router-assisted awareness of the network congestion state and congestion control message aggregation. Moreover, the fair shared rate estimation method is innovatively proposed to achieve protocol fairness. Most importantly, it adjusts the rate according to different congestion states indicated by the queue occupancy ratio. By introducing a rate selection factor, it can achieve a balance between packet loss rate and throughput. Experimental results show that our proposal outperforms other mechanisms in throughput, packet loss rate, total bandwidth utilization, and overhead, and achieves protocol fairness and better TCP friendliness.
Highlights
Eleni TsiropoulouCurrent network architecture and data delivery methods can no longer meet the demand for the efficient transmission of massive data in the future
We are concerned with information-centric networking (ICN) solutions that can coexist with existing IP networks to achieve incremental deployment and smooth evolution, such as data-oriented network architecture (DONA) [5], MobilityFirst [6], information network (NetInf) [7], and (SEANet) [8]
We focus on designing an efficient single-rate multicast congestion control mechanism to improve multicast transmission performance
Summary
Eleni TsiropoulouCurrent network architecture and data delivery methods can no longer meet the demand for the efficient transmission of massive data in the future. Unlike host-to-host communication in traditional IP networks, ICN is concerned with the content object itself rather than the location. We are concerned with ICN solutions that can coexist with existing IP networks to achieve incremental deployment and smooth evolution, such as data-oriented network architecture (DONA) [5], MobilityFirst [6], information network (NetInf) [7], and (SEANet) [8]. In such solutions, a name resolution system (NRS) is used to map names to locators and requests are routed to the source based on the locator
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