Energy Efficient Information Retrieval for Content Centric Networks in Disaster Environment

Yusaku HAYAMIZU  Tomohiko YAGYU  Miki YAMAMOTO  

Publication
IEICE TRANSACTIONS on Communications   Vol.E99-B   No.12   pp.2509-2519
Publication Date: 2016/12/01
Online ISSN: 1745-1345
DOI: 10.1587/transcom.2016CNP0003
Type of Manuscript: Special Section PAPER (Special Section on Information Centric Networking: Paradigms, Technologies, and Applications)
Category: 
Keyword: 
Content-Centric Networking,  information centric networking,  delay and disruption tolerant networking,  cache control,  

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Summary: 
Communication infrastructures under the influence of the disaster strike, e.g., earthquake, will be partitioned due to the significant damage of network components such as base stations. The communication model of the Internet bases on a location-oriented ID, i.e., IP address, and depends on the DNS (Domain Name System) for name resolution. Therefore such damage remarkably deprives the reachability to the information. To achieve robustness of information retrieval in disaster situation, we try to apply CCN/NDN (Content-Centric Networking/Named-Data Networking) to information networks fragmented by the disaster strike. However, existing retransmission control in CCN is not suitable for the fragmented networks with intermittent links due to the timer-based end-to-end behavior. Also, the intermittent links cause a problem for cache behavior. In order to resolve these technical issues, we propose a new packet forwarding scheme with the dynamic routing protocol which resolves retransmission control problem and cache control scheme suitable for the fragmented networks. Our simulation results reveal that the proposed caching scheme can stably store popular contents into cache storages of routers and improve cache hit ratio. And they also reveal that our proposed packet forwarding method significantly improves traffic load, energy consumption and content retrieval delay in fragmented networks.