Wavelength converters in dynamically-reconfigurable WDM networks

In simple wavelength-division multiplexed (WDM) networks, a connection must be established along a route using a common wavelength on all of the links along the route. This constraint may be removed by the introduction of wavelength converters, which are devices which take the data modulated on an input wavelength and transfer it to a different output wavelength. Wavelength converters thus improve network blocking performance. However, the introduction of wavelength converters into WDM cross-connects increases the hardware cost and complexity. Thus, it is important to establish precisely what advantages wavelength converters offer WDM networks. There has been considerable interest in the literature in the performance improvements offered by the introduction of wavelength converters into dynamically-reconfigurable WDM networks. This article provides a review of the conclusions drawn from these investigations. The performance improvements offered by wavelength converters depend on a number of factors, including network topology and size, the number of wavelengths, and the routing and wavelength assignment algorithms used. We discuss these factors here. However, it has been shown that wavelength converters offer only modest performance improvements in many networks. We also consider networks with limited wavelength conversion, in which the set of allowable conversions at a network node is constrained by having limited numbers of wavelength converters, or by using non-ideal wavelength converters. Limited wavelength conversion has been shown to provide performance which is often close to that achieved with ideal wavelength conversion in networks with tunable transmitters and receivers.

[1]  Imrich Chlamtac,et al.  Purely optical networks for terabit communication , 1989, IEEE INFOCOM '89, Proceedings of the Eighth Annual Joint Conference of the IEEE Computer and Communications Societies.

[2]  M. Rumsewicz,et al.  Wavelength conversion in networks with differing link capacities , 1998, IEEE GLOBECOM 1998 (Cat. NO. 98CH36250).

[3]  R. W. Tkach,et al.  Fundamental limits of optical transparency , 1998 .

[4]  Alexander Birman,et al.  Routing and wavelength assignment methods in single-hop all-optical networks with blocking , 1995, Proceedings of INFOCOM'95.

[5]  Jennifer Yates,et al.  Blocking in multiwavelength TDM networks , 1999, Telecommun. Syst..

[6]  Adrian Segall,et al.  Distributed network control for optical networks , 1997, TNET.

[7]  S. L. Danielsen,et al.  All-optical wavelength conversion by semiconductor optical amplifiers , 1996 .

[8]  A. S. Acampora,et al.  Electronic wavelength translation in optical networks , 1996 .

[9]  Imrich Chlamtac,et al.  Lightpath communications: an approach to high bandwidth optical WAN's , 1992, IEEE Trans. Commun..

[10]  Daniel Y. Al-Salameh,et al.  Optical networking , 1998, Bell Labs Technical Journal.

[11]  L. Clark Evolution of optical transport in the AT&T network , 1998 .

[12]  P. Demeester,et al.  Reduction of wavelength blocking through partitioning with wavelength convertors , 1997, Proceedings of Optical Fiber Communication Conference (.

[13]  Keith W. Ross,et al.  Multiservice Loss Models for Broadband Telecommunication Networks , 1997 .

[14]  K. Sohraby,et al.  Multiservice Loss Models for Broadband Telecommunication Networks [Book Review] , 1996, IEEE Communications Magazine.

[15]  Robert B. Cooper,et al.  An Introduction To Queueing Theory , 2016 .

[16]  Suresh Subramaniam,et al.  A performance model for wavelength conversion with non-Poisson traffic , 1997, Proceedings of INFOCOM '97.

[17]  Ezhan Karasan,et al.  Effects of wavelength routing and selection algorithms on wavelength conversion gain in WDM optical networks , 1996, Proceedings of GLOBECOM'96. 1996 IEEE Global Telecommunications Conference.

[18]  S. G. Finn,et al.  Optical services in future broadband networks , 1996 .

[19]  Vincent W. S. Chan,et al.  All-Optical Network Consortium - Ultrafast TDM Networks (Invited Paper) , 1996, IEEE J. Sel. Areas Commun..

[20]  Pierre A. Humblet,et al.  Models of Blocking Probability in All-Optical Networks with and Without Wavelength Changers , 1995, IEEE J. Sel. Areas Commun..

[21]  Piet Demeester,et al.  Meshed wavelength-division multiplexed networks partially equipped with wavelength converters , 1998 .

[22]  Anthony S. Acampora,et al.  Benefits of Wavelength Translation in All-Optical Clear-Channel Networks , 1996, IEEE J. Sel. Areas Commun..

[23]  Georgios Ellinas,et al.  Benefits of "minimal" wavelength interchange in WDM rings , 1997, Proceedings of Optical Fiber Communication Conference (.

[24]  Galen H. Sasaki,et al.  Dynamic Channel Assignment For WDM Optical Networks With Little Or No Wavelength Conversion , 1996 .

[25]  Suresh Subramaniam,et al.  All-optical networks with sparse wavelength conversion , 1996, TNET.

[26]  S. Bodamer,et al.  Routing of dynamic Poisson and non-Poisson traffic in WDM networks with limited wavelength conversion , 1998, 24th European Conference on Optical Communication. ECOC '98 (IEEE Cat. No.98TH8398).

[27]  Masayuki Murata,et al.  Performance of alternate routing methods in all-optical switching networks , 1997, Proceedings of INFOCOM '97.

[28]  J. P. Ryan,et al.  WDM: North American deployment trends , 1998, IEEE Commun. Mag..

[29]  Jennifer Yates,et al.  Limited-range wavelength translation in all-optical networks , 1996, Proceedings of IEEE INFOCOM '96. Conference on Computer Communications.

[30]  Byrav Ramamurthy,et al.  Wavelength conversion in WDM networking , 1998, IEEE J. Sel. Areas Commun..

[31]  Jennifer M. Yates Performance Analysis of Dynamically-Reconfigurable Wavelength-Division Multiplexed Networks , 1997 .

[32]  A. S. Acampora,et al.  Electronic wavelength translation in optical networks , 1995, Proceedings of GLOBECOM '95.

[33]  Ori Gerstel,et al.  Benefits of limited wavelength conversion in WDM ring networks , 1997, Proceedings of Optical Fiber Communication Conference (.

[34]  Ender Ayanoglu,et al.  Comparison of wavelength-interchanging and wavelength-selective cross-connects in multiwavelength all-optical networks , 1996, Proceedings of IEEE INFOCOM '96. Conference on Computer Communications.

[35]  Alok Aggarwal,et al.  Efficient routing and scheduling algorithms for optical networks , 1994, SODA '94.

[36]  Richard A. Barry Performance of optical networks , 1997, Proceedings of Optical Fiber Communication Conference (.

[37]  Eric Bouillet,et al.  The benefits of wavelength interchange in WDM rings , 1997, Proceedings of ICC'97 - International Conference on Communications.

[38]  Richard A. Barry Tutorial on the peformance of WDM optical networks , 1998 .

[39]  Suresh Subramaniam,et al.  On the optimal placement of wavelength converters in wavelength-routed networks , 1998, Proceedings. IEEE INFOCOM '98, the Conference on Computer Communications. Seventeenth Annual Joint Conference of the IEEE Computer and Communications Societies. Gateway to the 21st Century (Cat. No.98.

[40]  Piet Demeester,et al.  Wavelength translation in optical multi-wavelength multi-fibre transport networks. , 1997 .

[41]  P. Cochrane,et al.  The hidden benefits of optical transparency , 1994, IEEE Communications Magazine.

[42]  Satoru Okamoto,et al.  Network performance and integrity enhancement with optical path layer technologies , 1994, IEEE J. Sel. Areas Commun..

[43]  Ahmed Mokhtar,et al.  Adaptive wavelength routing in all-optical networks , 1998, TNET.

[44]  P.A. Humblet,et al.  Bounds On The Number Of Wavelengths Needed In WDM Networks , 1992, Summer Topical Meeting Digest on Broadband Analog and Digital Optoelectronics, Optical Multiple Access Networks, Integrated Optoelectronics, Smart Pixels.

[45]  B. Miller,et al.  Four-wave mixing wavelength conversion efficiency in semiconductor traveling-wave amplifiers measured to 65 nm of wavelength shift , 1994, IEEE Photonics Technology Letters.

[46]  Ezhan Karasan,et al.  Performance of WDM transport networks , 1998, IEEE J. Sel. Areas Commun..

[47]  Tak-Shing Peter Yum,et al.  Analysis of least congested path routing in WDM lightwave networks , 1994, Proceedings of INFOCOM '94 Conference on Computer Communications.

[48]  Suresh Subramaniam,et al.  Wavelength assignment in fixed routing WDM networks , 1997, Proceedings of ICC'97 - International Conference on Communications.

[49]  V. Li,et al.  A Wavelength-Convertible Optical Network , 1993 .

[50]  B. Miller,et al.  Efficiency of broadband four-wave mixing wavelength conversion using semiconductor traveling-wave amplifiers , 1994, IEEE Photonics Technology Letters.

[51]  Ezhan Karasan,et al.  Layered switch architectures for high-capacity optical transport networks , 1998, IEEE J. Sel. Areas Commun..

[52]  Charles A. Brackett,et al.  Dense Wavelength Division Multiplexing Networks: Principles and Applications , 1990, IEEE J. Sel. Areas Commun..