Optical multicast traffics need to consume a large number of wavelength division multiplexing (WDM) optical network bandwidth resources. and the gap between the bandwidth capacity offered by a wavelength and the bandwidth required by the multicast request is very large. So, traffic grooming is an effective method adopted to reduce the traffic request blocking probability and to improve the utilization of wavelength bandwidth resources for optical multicast networks. A novel optical multicast traffic grooming node architecture with two-level switching is proposed in this paper. The traffic grooming port first algorithm (TGPFA) and the traffic constructing the new light-tree first algorithm (TCLFA) are researched for the architecture respectively to reduce the traffic blocking probability. Moreover, an adaptive dynamic multicast grooming algorithm (ADMGA) based on TCLFA and TGPFA is brought forward to adapt to the network available wavelength resources dynamically. By setting a threshold function cprresponding to the network available bandwidth. the ADMGA algorithm can select the appropriate method to groom the new arriving multicast traffic request to the assigned wavelength with residual bandwidth. The simulation analysis and results show that the proposed ADMGA algorithm can reduce the request blocking probability, decrease the bandwidth blocking ratio and improve the wavelength bandwidth utilization for the WDM network with limited wavelength bandwidth resource.

• 出版日期2013