Browse > Article
http://dx.doi.org/10.7840/kics.2014.39C.4.334

Military Routing Scheme Using Content-Centric Mobile Ad Hoc Networks  

Park, Heungsoon (Dept. of Computer Science & Engineering, Korea National Defense University)
Kwon, Taewook (Dept. of Computer Science & Engineering, Korea National Defense University)
Publication Information
The Journal of Korean Institute of Communications and Information Sciences / v.39C, no.4, 2014 , pp. 334-342 More about this Journal
Abstract
Military communications for future warfare have limited resources but highly requirements. MANET has a lot of advantages for future military network due to easily deploying without infrastructure and supporting dynamic topology in restricted environments. But, one of the biggest issues for MANET is difficulty of transmitting data due to link failure in dynamic topology. Content Centric Networking is a future Internet paradigm which solves various IP network problem. In this paper, we propose a future military communication routing scheme using CCN in military tactical MANET. Simulation results show our scheme gets lower control message overhead and faster data downloads as number of node increases and mobile speed increases than other two schemes.
Keywords
Military Communications; Content Centric Networking (CCN); MANET;
Citations & Related Records
연도 인용수 순위
  • Reference
1 L. Kant, K. Young, O. Younis, and D. Shallcross, et al., "Network science based approaches to design and analyze MANETs for military applications," , vol. 46, no. 11, pp. 55-61, Nov. 2008.   DOI
2 O. K. Tonguz, N. Wisitpongphan, J. S. Parikh, and F. Bai, et al., "On the broadcast storm problem in ad hoc wireless networks," in pp. 1-11, Oct.2006.
3 V. Jacobson, D. K. Smetters, and J. D. Thornton, et al., "Networking named content," Commun. ACM, vol. 55, no. 1, pp. 117-124, 2012.
4 M. Meisel, V. Pappas, and L. Zhang, "Ad hoc networking via named data," in Proc. MobiArch'10, Chicago, Illinois, Sept. 2010.
5 M. Varvello, I. Rimac, U. Lee, L. Greenwald, and V. Hilt, "On the design of content-centric MANETs," in IEEE WONS 2011, pp. 1-8, Oct. 2011.
6 S. Y. Oh, D. Lau, and M. Gerla, "Content centric networking in tactical and emergency MANETs," in IFIP Wireless Days (WD), Oct. 2010.
7 M. Amadeo and A. Molinaro, "CHANET: A content-centric architecture for IEEE 802.11 MANETs," in Proc. IEEE NOF 2011, pp. 122-127, Nov. 2011.
8 S. Park, H. Park, and T. Kwon, "A study of TICN backbone routing applying content centric networking," in Proc. KCC 2013, KIISE, pp. 142-144, Jun. 2013.
9 A. Afanasyev, I. Moiseenko, and L. Zhang, "ndnSIM: NDN simulator for NS-3," Technical Report NDN-0005, NDN Project, 2012.
10 X. Hong, K. Xu, and M. Gerla, "Scalable routing protocols for mobile ad-hoc networks," IEEE Network Mag., vol. 16, no. 4, pp. 11-21, 2002.   DOI   ScienceOn
11 M. Petrovic, V. Muthusamy, and H. Jacobsen, "Content-based routing in mobile ad hoc networks," in Proc. IEEE MobiQuitous 2005, pp. 45-55, 2005.
12 S. Yoo, J. H. Son, and M. H. Kim, "A scalable publish/subscribe system for large mobile ad hoc networks," J. Syst. Softw., vol. 82, no. 7, pp. 1152-1162, Jul. 2009.   DOI
13 C. E. Perkins and E. M. Royer, "Ad-hoc on-demand distance vector routing," in Proc. IEEE WMCSA'99, pp. 90-100, Feb. 1999.
14 X. Hong, M. Gerla, G. Pei, and C. C. Chiang, "A group mobility model for ad hoc wireless networks," in Proc. ACM MSWiM'99, pp. 53-60, Aug. 1999.
15 H. Park, "Effective mobile routing through dynamic addressing," M.S. Thesis, Air Force Institute of Technology, Mar. 2007.