Department of Computer Science
High-capacity time-domain wavelength interleaved networks
Time-domain wavelength interleaved network (TWIN) is an elegant and cost-effective all-optical network designed by a group of researchers in Bell Labs. It emulates fast optical switching via fast tunable lasers at the network edge, so it does not need optical switching and buffering in the network core. TWIN can be upgraded to provide larger capacity by using more receivers at the nodes, where capacity is the aggregate data rate supported by the network. In this paper, we focus on making this upgrade resource-effective. Specifically, we exploit and optimize wavelength reuse so that the resulting network, called high-capacity TWIN (HC-TWIN), can better utilize its available resources to provide larger capacity while retaining the appealing advantages of TWIN. We formulate the problem of optimizing HC-TWIN, prove its NP-hardness, and design an efficient three-stage algorithm to solve it. Simulation results demonstrate that 1) HC-TWIN can provide larger capacity by realizing larger degree of wavelength reuse and 2) the three-stage algorithm can find optimal or close-to-optimal solutions. © 2009 IEEE.
All-optical networks, Network architectures, Network optimization
Source Publication Title
Journal of Lightwave Technology
Institute of Electrical and Electronics Engineers
Link to Publisher's Edition
Chan, Tony K.C., Eric W.M. Wong, and Yiu-Wing Leung. "High-capacity time-domain wavelength interleaved networks." Journal of Lightwave Technology 27.17 (2009): 3948-3958.