Interdomain wavelength path control for translucent wavelength switched optical networks: from rationales to experiments

A translucent wavelength switched optical network (WSON), with sparse 3R regenerators to guarantee the signal quality of an optical connection, is a promising paradigm for a metro/ core network. This is because a translucent WSON can achieve performance comparable to that of an all-electronic switching (i.e., opaque) network with far lower network cost and a great reduction in power consumption. Because of its advantages, many recent research and standardization efforts have focused on translucent WSONs. However, most of them study the intradomain case, and issues related to multidomain translucent WSONs are largely open at present. In light of this, in this article, we present two possible strategies to improve interdomain path computation and lightpath establishment in a multidomain translucent WSON. Both approaches are experimentally demonstrated and quantitatively evaluated. Our aim is to provide feasible and efficient solutions for supporting a multidomain translucent WSON, as well as to obtain valuable insight into the proposed strategies through experiments, which will be beneficial for the potential industrial deployment of translucent optical networks.

[1]  R. Martinez,et al.  Enhanced Backwards Recursive Path Computation for Multi-area Wavelength Switched Optical Networks Under Wavelength Continuity Constraint , 2009, IEEE/OSA Journal of Optical Communications and Networking.

[2]  Young Lee,et al.  GMPLS OSPF Enhancement for Signal and Network Element Compatibility for Wavelength Switched Optical Networks , 2015, RFC.

[3]  R. Martinez,et al.  Lab-trial of multi-domain lightpath provisioning with PCE path computation combining BRPC and path-key topology confidentiality in GMPLS translucent WSON networks , 2010, 36th European Conference and Exhibition on Optical Communication.

[4]  Alan Pak Tao Lau,et al.  Coherent detection in optical fiber systems. , 2008, Optics express.

[5]  Luca Valcarenghi,et al.  GMPLS-controlled dynamic translucent optical networks , 2009, IEEE Network.

[6]  R. Martínez,et al.  Experimental Translucent-Oriented Routing for Dynamic Lightpath Provisioning in GMPLS-Enabled Wavelength Switched Optical Networks , 2010, Journal of Lightwave Technology.

[7]  Maurice Gagnaire,et al.  Impairment-aware routing and wavelength assignment in translucent networks: State of the art , 2009, IEEE Communications Magazine.

[8]  Eric Mannie,et al.  Generalized Multi-Protocol Label Switching (GMPLS) Architecture , 2004, RFC.

[9]  Luca Valcarenghi,et al.  Challenges and requirements for introducing impairment-awareness into the management and control planes of ASON/GMPLS WDM networks , 2006, IEEE Communications Magazine.

[10]  Ramon Casellas,et al.  Challenges for GMPLS lightpath provisioning in transparent optical networks: Wavelength constraints in routing and signaling , 2009, IEEE Communications Magazine.

[11]  Yunbin Xu,et al.  OSPF-TE Extensions for General Network Element Constraints , 2015, RFC.

[12]  Adrian Farrel,et al.  A Path Computation Element (PCE)-Based Architecture , 2006, RFC.

[13]  Rodney S. Tucker,et al.  Translucent optical networks: the way forward [Topics in Optical Communications] , 2007, IEEE Communications Magazine.

[14]  Jean-Louis Le Roux,et al.  A Backward-Recursive PCE-Based Computation (BRPC) Procedure to Compute Shortest Constrained Inter-Domain Traffic Engineering Label Switched Paths , 2009, RFC.

[15]  J.P. Heritage,et al.  Transparent vs. opaque vs. translucent wavelength-routed optical networks , 1999, OFC/IOOC . Technical Digest. Optical Fiber Communication Conference, 1999, and the International Conference on Integrated Optics and Optical Fiber Communication.

[16]  Lei Liu,et al.  Experimental Assessment of a Resilient PCE/GMPLS Controlled Translucent Wavelength Switched Optical Network , 2011, IEICE transactions on communications.

[17]  Young Lee,et al.  Routing and Wavelength Assignment Information Encoding for Wavelength Switched Optical Networks , 2015, RFC.

[18]  Jean-Louis Le Roux,et al.  Path Computation Element (PCE) Communication Protocol (PCEP) , 2009, RFC.