TY - JOUR
T1 - Spectral and spatial 2D fragmentation-aware routing and spectrum assignment algorithms in elastic optical networks [invited]
AU - Yin, Yawei
AU - Zhang, Huan
AU - Zhang, Mingyang
AU - Xia, Ming
AU - Zhu, Zuqing
AU - Dahlfort, Stefan
AU - Yoo, S. J.B.
PY - 2013
Y1 - 2013
N2 - This paper investigates the spectrum fragmentation issue, which undermines the bandwidth efficiency in elastic optical networks. After categorizing the two-dimensional fragmentation problem as the fragmentation and misalignment subproblems, this paper proposes joint routing and spectrum assignment (RSA) algorithms to alleviate the spectral fragmentation in the lightpath provisioning process. The time complexity of the two proposed algorithms are analyzed in detail, and both algorithms can run in 0(kdnC log C) time, where k is the number of the shortest path in the routing algorithm, d is the maximum node degree in the network, n is the number of nodes in the network, and C is the link capacity expressed as the number of spectral slots. Simulation results indicate that the proposed fragmentation-aware (FA) RSA algorithm and the FA algorithm with congestion avoidance (CA) outperform the existing schemes in terms of blocking probability (BP) reduction. Compared with the benchmark iT-shortest-path routing and first-fit assignment (KSP-FF) algorithm, the proposed FA and FA-CA algorithms can achieve a BP reduction of [100%, 4.43%] and [100%, 6.45%], respectively, according to the traffic load in a sample NSFNET topology.
AB - This paper investigates the spectrum fragmentation issue, which undermines the bandwidth efficiency in elastic optical networks. After categorizing the two-dimensional fragmentation problem as the fragmentation and misalignment subproblems, this paper proposes joint routing and spectrum assignment (RSA) algorithms to alleviate the spectral fragmentation in the lightpath provisioning process. The time complexity of the two proposed algorithms are analyzed in detail, and both algorithms can run in 0(kdnC log C) time, where k is the number of the shortest path in the routing algorithm, d is the maximum node degree in the network, n is the number of nodes in the network, and C is the link capacity expressed as the number of spectral slots. Simulation results indicate that the proposed fragmentation-aware (FA) RSA algorithm and the FA algorithm with congestion avoidance (CA) outperform the existing schemes in terms of blocking probability (BP) reduction. Compared with the benchmark iT-shortest-path routing and first-fit assignment (KSP-FF) algorithm, the proposed FA and FA-CA algorithms can achieve a BP reduction of [100%, 4.43%] and [100%, 6.45%], respectively, according to the traffic load in a sample NSFNET topology.
KW - Algorithm
KW - Elastic optical networking
KW - Routing and spectrum assignment
KW - Spectrum fragmentation
UR - http://www.scopus.com/inward/record.url?scp=84887304093&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=84887304093&partnerID=8YFLogxK
U2 - 10.1364/JOCN.5.00A100
DO - 10.1364/JOCN.5.00A100
M3 - Article
AN - SCOPUS:84887304093
SN - 1943-0620
VL - 5
SP - A100-A106
JO - Journal of Optical Communications and Networking
JF - Journal of Optical Communications and Networking
IS - 10
ER -