2017 IEEE 41st Annual Computer Software and Applications Conference (COMPSAC) (2017)
July 4, 2017 to July 8, 2017
In this paper, we propose a modeling approach for a Content-Centric Networking (CCN) network by considering the dynamics of its transport layer protocol. Transport layer protocols for CCN have mainly been investigated through simulation experiments because CCN itself is a complicated network architecture compared with IP, and the complex interaction between CCN caching and the behavior of a transport layer protocol must be considered. Several analytical studies of transport layer protocols in CCN have been reported; however, these modeling approaches cannot model the dynamical behavior of a transport layer protocol or a large-scale CCN network. In this paper, by extending an existing large-scale CCN modeling approach, we build a fluid-based model for a CCN network with an AIMD-based window flow control mechanism. Moreover, we verify the validity of our approximate analysis by comparing the analytical results with simulation results.
Analytical models, Delays, Network topology, Throughput, Routing protocols, Bandwidth
T. Yabuuchi, R. Nakamura and H. Ohsaki, "A Fluid-Based Model of a Transport Protocol in Content-Centric Networking," 2017 IEEE 41st Annual Computer Software and Applications Conference (COMPSAC), Turin, Italy, 2017, pp. 690-693.