TY - JOUR
T1 - Multicast routing with power consideration in sparse splitting WDM networks
AU - Wu, K. D.
AU - Wu, J. C.
AU - Yang, C. S.
PY - 2001/1/1
Y1 - 2001/1/1
N2 - Supporting multicast communications in WDM networks has become an important and attractive topic recently. In this paper, we study constrained multicast routing with power consideration in WDM networks, where power is attenuated due to (i) the number of concatenated fanouts (splitting), and (ii) the propagation from source node to any multicast member. We propose a heuristic algorithm called Centralized-Splitting algorithm to re-construct the multicast routing paths established by the Member-Only algorithm [17], which can provide the best bandwidth and wavelength usage in the multicast routing construction with sparse splitting constrain. In comparison to the Member-Only algorithm [17], the Centralized-Splitting algorithm (i) does not increase time complexity significantly, especially when the size of multicast group is large; (ii) can reduce the power loss up to 17% in average, while it still maintains proper bandwidth, wavelength usage and delay requirement.
AB - Supporting multicast communications in WDM networks has become an important and attractive topic recently. In this paper, we study constrained multicast routing with power consideration in WDM networks, where power is attenuated due to (i) the number of concatenated fanouts (splitting), and (ii) the propagation from source node to any multicast member. We propose a heuristic algorithm called Centralized-Splitting algorithm to re-construct the multicast routing paths established by the Member-Only algorithm [17], which can provide the best bandwidth and wavelength usage in the multicast routing construction with sparse splitting constrain. In comparison to the Member-Only algorithm [17], the Centralized-Splitting algorithm (i) does not increase time complexity significantly, especially when the size of multicast group is large; (ii) can reduce the power loss up to 17% in average, while it still maintains proper bandwidth, wavelength usage and delay requirement.
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M3 - Conference article
AN - SCOPUS:0034863995
SN - 0536-1486
VL - 2
SP - 513
EP - 517
JO - IEEE International Conference on Communications
JF - IEEE International Conference on Communications
T2 - International Conference on Communications (ICC2001)
Y2 - 11 June 2000 through 14 June 2000
ER -