Abstract
In recent years, the Content-Centric Networking (CCN) has attracted much attention from the global Internet experts; in particular, it has demonstrated the outstanding effect on the application in the field of Internet of Things (IoT). At present, the routing technique of ICN is subjected to the dynamic change of network environment with the development of mobile Internet. Therefore, this paper proposes an Intelligent CCN routing strategy based on Bacterial Quorum pattern (ICBQ). The ICBQ tries to simulate the behaviors of bacteria, including quorum sensing and adaptive chemotaxis. Meanwhile, the quorum sensing can obtain the parameter information on bandwidth, delay, and error rate to facilitate the subsequent forwarding of packets. The adaptive chemotaxis can select the optimal interface to forward the packets through the information measurement. The simulation is driven based on the real Netflix dataset over the GTS network topology, and the experimental results show that the proposed ICBQ has better performance in terms of routing success rate, routing delay, load balance, and energy efficiency.
Highlights
With the rapid development of Internet of ings (IoT) [1], cloud computing [2], and mobile Internet [3], it is very difficult for the current Internet to support the efficient content transmission, since there have been a large number of mobile devices generating the data traffic
We propose a Bacterial Quorum pattern inspired routing strategy for Centric Networking (CCN), which tries to simulate the behaviors of bacteria, including quorum sensing and adaptive chemotaxis
The research works in [7, 8] are considered two baselines for comparison, because they are the latest intelligent CCN routing strategies, which are shortened as IJCS and ITL, respectively. erein, [7] devises an energyefficient Quality of Service (QoS) routing by using the intelligent drops algorithm
Summary
With the rapid development of Internet of ings (IoT) [1], cloud computing [2], and mobile Internet [3], it is very difficult for the current Internet to support the efficient content transmission, since there have been a large number of mobile devices generating the data traffic. In [9], an intelligent ant colony optimization inspired CCN routing strategy was introduced, which simulated the foraging behaviors of ants to obtain the closest contents via the forwarding of interest ants. E ICBQ simulates the behaviors of bacteria, including quorum sensing and adaptive chemotaxis.
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