Abstract
Named data networking (NDN) is a revolutionary approach to cater for modern and future Internet usage trends. The advancements in web services, social networks and cloud computing have shifted Internet utilization towards information delivery. Information-centric networking (ICN) enables content-awareness in the network layer and adopts name-based routing through the NDN architecture. Data delivery in NDN is receiver-driven pull-based and governed by requests (interests) sent out by the receiver. The ever-increasing share of high-volume media streams traversing the Internet due to the popularity and availability of video-streaming services can put a strain on network resources and lead to congestion. Since most congestion control techniques proposed for NDN are receiver-based and rely on the users to adjust their interest rates, a fairness scheme needs to be implemented at the intermediate network nodes to ensure that “rogue” users do not monopolize the available network resources. This paper proposes a fairness-based active queue management at network routers which performs per-flow interest rate shaping in order to ensure fair allocation of resources. Different congestion scenarios for both single path and multipath network topologies have been simulated to test the effectiveness of the proposed fairness scheme. Performance of the scheme is evaluated using Jain’s fairness index as a fairness metric.
Highlights
The current Internet architecture has been serving for decades with many innovations in layers of the TCP/IP protocol stack
We investigate the lack of fairness caused by the unresponisve flows in the network and propose a fairness scheme to ensure fair allocation of network resources in the presence of rogue users; i.e., the users that do not comply with interest rate shaping at receiver-end, thereby contributing to congestion in the network
We propose a lightweight, effective, and robust fairness scheme for Named data networking (NDN) which is deployed at the network nodes
Summary
The current Internet architecture has been serving for decades with many innovations in layers of the TCP/IP protocol stack. The stateful, connectionless, and content-aware approach employed by NDN is used in multiple emerging technologies, including Internet-of-Things (IoT), mobile ad-hoc networks (MANETs), and vehicular ad-hoc networks (VANETs) These emerging technologies are making use of NDN’s name-based forwarding and caching to come up with new and improved data delivery and support content-based usage [6,7,8]. The in-network interest rate shaping algorithm must perform some kind of fairness-based active queue management, as some uncooperative users might disable their interest rate control and keep sending out interests at a constant rate, resulting in constant bit rate (CBR) flows These CBR flows are unresponsive towards network congestion and can cause unfair allocation of network resources.
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