Abstract
Dynamic traffic grooming in wavelength division multiplexing (WDM) optical
networks refers to consolidating dynamically arriving subwavelength connections onto
lightpaths. Most studies on dynamic traffic grooming focused on designing effective
algorithms to achieve better performance (typically blocking probability) with given
resources such as wavelengths and transponders. In this paper, we study the reverse
problem: given the blocking requirement in dynamic traffic grooming, how to determine
the resources needed to meet this requirement. We call it resource planning for dynamic
traffic grooming. It is raised in a situation that after the initial deployment of
optical networks, service providers often need to upgrade resources to accommodate
increasing traffic demands. We formulate it as an ILP problem, and developed heuristics
to solve this problem for large networks. Numerical results show that the heuristics can
achieve good performance, and network resources increase slowly when requiring lower
client call blocking probability.
© 2009 IEEE
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