Abstract
The challenging requirements of the fifth generation (5G) cellular networks motivate the need to explore the feasibility of delivering services over new network architectures. Information-Centric Networking (ICN) is an emerging and promising network to satisfy 5G requirements. The name resolution is at the heart of ICN. We focus on satisfying the delay-sensitive requirement of the Name Resolution Service (NRS) in a 5G-ICN integrated network. We aim to design a local NRS that provides a deterministic low latency name resolution service. In this paper, we propose a temporally hierarchical deployment architecture for an Enhanced Name Resolution System (ENRS) to realize deterministic latency. The ENRS quantifiably organizes the nodes into hierarchical and nested domains by latency constraints. We design demand-aware name registration and resolution schemes to achieve constant forwarding hops in order to realize local resolution and forwarding locality. We introduce a tolerable latency-based peer resolver forwarding algorithm to improve the query hit ratio. We present a proactive name binding replicas distribution approach based on temporal–spatial features to reduce the resolution latency and query traffic. The video streaming monitoring service in Smart Home is used as a typical use case to show the continuity of service guaranteed by ENRS. Analysis demonstrates that ENRS can achieve deterministic latency. Evaluation results show that the average query hit ratio of ENRS outperforms the K-NearestNeighbor-Distributed Name Resolution System (KNN-DNRS) and Random Name Resolution System (Random-NRS) with 23.2% and 18.1%, respectively. The query traffic overhead of ENRS is up to 33.3 times smaller than KNN-DNRS. ENRS can process up to 21 GB/s name resolution traffic when the user nodes are in the magnitude order of 106.
Highlights
The aim of 5G is to provide unlimited access to tremendous amounts of information and the ability to share data anywhere, anytime, by anyone [1]
To investigate the performance of Enhanced Name Resolution System (ENRS), we focus on five major aspects: (i) name resolution latency, (ii) hit ratio of the system, (iii) throughput, (v) offloading traffic of the name resolution by ENRS from global Name Resolution Service (NRS), and (vi) the control overhead
We proposed an Enhanced Name Resolution System (ENRS) to satisfy the delay of sensitive requirements of NRS in a 5G-Information-Centric Networking (ICN) integrated network, which quantifiably organizes the nodes into hierarchical and nested areas by transmission latency constraints to provide a deterministic low latency name resolution service
Summary
The aim of 5G is to provide unlimited access to tremendous amounts of information and the ability to share data anywhere, anytime, by anyone [1]. Traditional Transmission Control Protocol (TCP)/Internet Protocol (IP) based networks have only been successful in reducing the end-to-end operating latencies to the order of tens of milliseconds. The 5G network puts forward a challenging performance for latency. The end-to-end latencies should be to the order of a few milliseconds [2], for the Tactile Internet [3] the end-to-end latencies should be around one millisecond, and for the one-way front-haul in wireless cellular networks the latencies should be to the order of 100 microseconds. The IP address plays both the roles of the network layer identifier and the transport layer locator, which impose serious limitations in supporting mobility, scalability, and security, among others. Separating the identity and location are requirements of future network design [4,5,6,7]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
