Research Article
Detailed study of IP/ reconfigurable optical networks
@INPROCEEDINGS{10.1109/BROADNETS.2004.31, author={Guangzhi Li and Dongme Wang and Jennifer Yates and Robert Doverspike and Charles Kalmanek}, title={Detailed study of IP/ reconfigurable optical networks}, proceedings={1st Annual Conference on Broadband Networks}, publisher={IEEE}, proceedings_a={BROADNETS}, year={2004}, month={12}, keywords={}, doi={10.1109/BROADNETS.2004.31} }
- Guangzhi Li
Dongme Wang
Jennifer Yates
Robert Doverspike
Charles Kalmanek
Year: 2004
Detailed study of IP/ reconfigurable optical networks
BROADNETS
IEEE
DOI: 10.1109/BROADNETS.2004.31
Abstract
IP over reconfigurable optical network architectures have been extensively discussed within the research literature over the past few years. However, although reconfigurable optical networks have been deployed and signaling protocols between IP routers and optical networks have been standardized, large IP backbones are typically deployed using the reconfigurable optical networks. One of the most important criteria in determining whether an IP backbone should be carried over a reconfigurable optical network is economic viability - which necessitates a detailed, accurate economic study of IP backbone over reconfigurable optical network architectures. In this paper, we analyze and explore four IP over optical network architectures for a typical large ISP backbone. In contrast with other published claims, our results suggest that an IP over opaque reconfigurable optical network architecture is not economically attractive with current equipment and IP backbone network design requirements. However, for ISPs also carrying large volumes of transport network private line services, our proposed integrated IP over re-configurable optical network architecture may provide an attractive alternative for providing rapid, cost effective failure recovery.