Takada A, Koga M. Multi-granularity OXC architecture //OFC. Washington: OSA, 2007: OThR4.
[2]
Ho Pin-Han, Mouftah H T, Wu Jing. A scalable design of multi-granularity optical cross- connects for the next-generation optical Internet [J]. IEEE J Select Areas Commun, 2003, 21: 1133-1142.
[3]
Lee M, Yu J, Kim Y, et al. Design of hierarchical cross connect WDM networks employing a two-stage multiplexing scheme of waveband and wavelength [J]. IEEE J Select Areas Commun, 2002, 20: 166-171.
[4]
Shen G, Bose S K, Cheng T H, et al. The impact of the number of add/drop ports in wavelength routing all-optical networks [J]. Optical Networks Magazine, 2003, 203:112-122.
[5]
Ashwin S, Kumar N S. Blocking in All-optical networks [J]. IEEE/ACM Transactions on Networking, 2004, 12: 990-999.
[6]
Zhao Y L, Zhang J. Routing on pre-configured topology for dynamic optical networks [J]. Photonic Network Communications, 2009, 17: 299-310.
[7]
Zhang Z, Acampora A S. A heuristic wavelength assignment algorithm for multi-hop WDM networks with wavelength routing and wavelength re-use [J]. IEEE/ACM Transactions on Networking, 1995, 3: 281-288.
[8]
Chamas H, Ali M, Bjorkman W. A novel admission control system for bandwidth on demand Ethernet services over optical transport networks //OFC. Anaheim: OSA, 2005: OThG2.
[9]
Ishida S, Arakawa S, Murata M. Virtual fiber configuration method for dynamic lightpath establishment in large-scaled WDM networks //Optical Network Design and Modeling. Milano: IEEE, 2005: 153-161.
