Volume 1, Issue 1, January 2013, Page: 9-15
Radio over Fiber Networks Synthesis Using Meta-Heuristic BCO
Alexander Pereverzev, Telecomunication system, Kharkiv, Ukraine; Kharkiv National University Radio Electronics, KNURE, Kharkov, Ukraine
Dmitry Ageyev, Telecomunication system, Kharkiv, Ukraine; Kharkiv National University Radio Electronics, KNURE, Kharkov, Ukraine
Received: Feb. 4, 2013;       Published: Jan. 10, 2013
DOI: 10.11648/j.com.20130101.12      View  2876      Downloads  117
Abstract
Radio access network over fiber (RoF) technology combines both wireless and fiber-optic technology. The advantages of this technology are low attenuation, bigger network bandwidth, easy installation and management, reduced power consumption, multiservice, dynamic allocation of resources. There are many methods of designing optical and wire-less networks. Since RoF combines these technologies, the design tasks are a complex problem. Therefore there is a need for a new design method for RoF technology. The main problem in designing DWDM transport networks is the wavelength assignment of light paths. If the network topology has a great need to use heuristic methods there is one way to solve this problem: use of the BCO-RWA algorithm. Meta-based heuristic algorithm BCO-RWA contains the modeling of the beha-vior of bees collecting nectar. The main advantage of this algorithm is low computational complexity. However, BCO-RWA has the following disadvantage: during the calculation of route selection probability, base algorithm does not take into account the nonlinear four-wave mixing phenomenon. In this paper we present new method to design RoF network and modification of BCO-RWA algorithm.
Keywords
RoF, BCO-RWA, Route, Light Path, Design, Connection, Nonlinear Four-Wave Mixing Phenomenon DWDM
To cite this article
Alexander Pereverzev, Dmitry Ageyev, Radio over Fiber Networks Synthesis Using Meta-Heuristic BCO, Communications. Vol. 1, No. 1, 2013, pp. 9-15. doi: 10.11648/j.com.20130101.12
Reference
[1]
P. H. Gomes, N.L.S. da Fonseca,O.C. Branquinho "Optimi-zation of the use of Radio Resource of Radio-Over-Fiber Access Networks," Global Telecommunications Conference (GLOBECOM 2010), pp.1-5, Dec. 2010.
[2]
A.M.J. Koonen, M. GarcíaLarrodé, "Perspectives of Radio over Fiber Technologies," Journal of Optical Fiber Commu-nication (OSA), 2008.
[3]
Jianjun Yu et al, "Radio-over-optical-fiber networks: intro-duction to the feature issue", Journal of Optical Networking, Vol. 8(5) ,pp 488-481, 2009.
[4]
MirosławKlinkowski, MarekJaworski, DavideCareglio "Channel Allocation in Dense Wavelength Division Multip-lexing Radio-over-Fiber Networks", in 12th International Conference on Transparent Optical Networks, Munich, Germany, Jun. 2010, pp. 1-5.
[5]
Lee, K., Park, S., Choe, K.-I. and Park, C. "Routing and wavelength assignment in WDM all-optical networks." IEEE Electron. Lett., 36, 2000, pp. 964–966.
[6]
R.S. Barpanda, A.K. Turuk, B. Sahoo, and B. Majhi, "Genetic Algorithm Approaches to Solve RWA Problem in WDM Optical Networks", ;in Proc. SEMCCO, 2010, pp.599-606.
[7]
P. Grønsund, P.E. Engelstad, T. Johnsen, and T. Skeie, "The physical performance and path loss in a fixed WiMAX dep-loyment", Proceedings of the 2007 International Conference on Wireless Communications and Mobile Computing , Ho-nolulu, HI, August 2007.
[8]
A. Gamst, "Homogeneous distribution of frequencies in a regular hexagonal cell system", IEEE Transactions on Ve-hicular Technology, 31(3), 1982, pp. 132–144.
[9]
Mokhtar, A., Azizoglu, M. "Dynamic route selection and wavelength assignment in all-optical networks." In IEEE Lasers and Electro-Optics Society Annual Meeting, San Francisco, CA, USA, Oct. , 1995, pp. 220–221.
[10]
Yan Zhang "WiMAX Network Planning and Optimization." Auerbach Publications, pp. 372-376, 2009.
[11]
Soriano P., Wynants C., Seguin R., Labbe M., Gendreau M., Fortz B. "Design and dimensioning of survivable SDH SONET networks" Telecommunications Network Planning, Kluwer Academic, pp. 148-167, 1999.
[12]
Gannett J.W. Fast efficient equipment placement heuristics for broadband switched or internet router networks // Tel-cordiaTechnologies., pp. 3-19, 1998.
[13]
Jin Y. Yen "Finding the K Shortest Loopless Paths in a Net-work", Management Science, Vol. 17, No. 11, Theory Series, pp. 712-716, 1971.
[14]
D. Banerjee and B. "Mukherjee, Wavelength Routed Optical Networks Linear formulation resource budgeting tradeoff and a reconfiguration study" in IEEE/ACM Transactions on Networking,vol. 8, № 5, pp. 684-696, 2000.
[15]
D.V. Ageyev, V.K. Kovalchuk, A.A. Pereverzev "Planirova-nieraspredeleniyadlinvolnpriproektirovaniitransprortnoyseti DWDM [Planning for the distribution of wavelengths in the design of DWDM transport network]", Eastern European Journal of Enterprise Technolopgies, No 5/3(53), pp. 25-29, 2011.
[16]
Dmitry Ageyev, Alexander Pereverzev "Wavelength As-signment in Design DWDM Transport Network Using Al-gorithm BCO-RWA",.in Proceedings of the ХІth Interna-tional Conference on Modern Problems of Radio Engineering, Telecommunications, and Computer Science, TCSET’2012, pp. 277-278, 2012.
[17]
M. Sridharan, M.V. Salapaka and A.K. Somani, "A practical approach to operating survivable WDM networks", IEEE Journal on Selected Areasof Communications, vol. 20, № 1. pp. 34-36, 2002.
[18]
G.D. Morley and W.D.Grover, "Tabu search optimisation of optical ring transport network," in proc. of IEEE Globe-com’01. San Antonio, vol. 4, № 1, pp. 2160– 2164, 2001.
[19]
S.Yan, M.Ali and J.Deogun, "Route optimisation of multicast sessions in sparse light-splitting optical networks," in Proc. of IEEE Globecom 01, vol. 4, № 1, pp. 2134-2138, 2001.
[20]
B. Mukherjee, D. Banerjee and A. Mukherjee, "Some Prin-ciples ofdesigning a wide-area WDM optical network" IEEE/ACM Transactions on Networking, vol. 5, № 5, pp. 489-500, 1995.
[21]
Rodriguez-Dagnino R.M. and Lopez-Cuadana E.O., "Simu-lated Annealing and Stochastic ruler algorithms for wave-length assignment planning in WDM optical networks," in Poc. of IEEE SMC’99, vol. 6, pp. 1015-1020, 1999.
[22]
M. Ali, B.Ramamurthy and J.S.Deogun, "Routing algorithms for all-optical networks with power consideration : The unicast case," in Proc of the 8th IEEE ICCCN 99. Bos-ton-Natick MA, pp. 335-340, 1999.
[23]
D. Teodorović, "Bee Colony Optimization (BCO)," in Swarm Intelligence for Knowledge-Based Systems, Springer-Verlag, Berlin Heidelberg, pp. 39-60, 2009.
[24]
K. Inoue "A simple expression for optical FDM network scale considering fiberfour-wave mixing and optical amplifier noise." Journal of Lightwave Technology, vol. 2, № 5, 1995, pp. 856-861.
Browse journals by subject