OA&M Framework for Multiwavelength Photonic Transport Network (Invited Paper)

Photonic networks based on wavelength division multiplexing (WDM) and optical path technologies are expected to realize flexible, transparent, and cost-effective transport networks with a large transmission capacity. This paper explores the design framework of photonic transport networks taking into consideration the operation administration and maintenance (OA&M) functions required for the successful introduction of WDM systems based on the optical path concept. From the view point of network maintenance, clear distinction is made between the optical path layer and the optical section layer to facilitate accurate and smooth failure localization. The digital multiplexing span between physical multiplexing interfaces at the end-to-end digital nodes should have the same maintenance span as the corresponding optical path. We argue that cooperative maintenance by OA&M functions at both the digital and optical layers can be a practical way of network supervision. A supervisory (SV) signal transfer method and a configuration that is suitable for the terrestrial trunk network are also indicated. As an example, a practical SV system design methodology and an actual procedure developed for a single channel optical transmission system based on optical in-line amplifiers are introduced. Furthermore, application of the developed SV system and network restoration schemes is discussed for future WDM-based photonic networks. The OA&M aspects introduced will be valuable for creating future photonic network systems.

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

[2]  J. Brannan,et al.  Performance monitoring of long chains of optical amplifiers , 1993 .

[3]  Kazuo Hagimoto,et al.  SUPERVISORY SYSTEM CONFIGURATION FOR HIGH-SPEED OPTICAL TRANSMISSION NETWORKS APPLYING OPTICAL LINE AMPLIFIERS , 1995 .

[4]  Ken-ichi Sato,et al.  Optical Path Accommodation Designs Applicable to Large Scale Networks , 1995 .

[5]  Kumar N. Sivarajan,et al.  Optimal routing and wavelength assignment in all-optical networks , 1994, Proceedings of INFOCOM '94 Conference on Computer Communications.

[6]  Kris Struyve,et al.  End-to-end survivable broadband networks , 1995 .

[7]  Yamabayashi Yoshiaki,et al.  Supervisory Channel Using Fiber Brillouin Amplifiers for Er-doped Fiber Amplifier Transmission Systems , 1992 .

[8]  M. Tabiani,et al.  A novel integrated-optic WDM cross-connect for wide area all optical networks , 1993 .

[9]  Y. Kobayashi,et al.  SDH-based 10 Gbit/s optical transmission system , 1994, 1994 IEEE GLOBECOM. Communications: The Global Bridge.

[10]  H Fujiwara,et al.  A Convolutional Coded ARQ Scheme with Retransmission Criterion Based on an Estimated Decoding Error Rate. | Article Information | J-GLOBAL , 1995 .

[11]  H. Miura,et al.  Japan's network evolution relies on SDH-based systems , 1991, IEEE LTS.

[12]  N. Yoshikai,et al.  The roll of virtual path crossconnection , 1991, IEEE LTS.

[13]  K.-I. Sato,et al.  Optical path layer technologies to enhance B-ISDN performance , 1993, Proceedings of ICC '93 - IEEE International Conference on Communications.

[14]  T. Miki The potential of photonic networks , 1994, IEEE Communications Magazine.

[15]  K. Nakanishi,et al.  A 100-channel optical FDM transmission/distribution at 622 Mb/s over 50 km , 1990 .

[16]  A. Elrefaie Multiwavelength survivable ring network architectures , 1993, Proceedings of ICC '93 - IEEE International Conference on Communications.

[17]  K. Aida,et al.  Noise figure monitoring of a cascaded in-line erbium-doped fiber amplifier , 1993, IEEE Photonics Technology Letters.

[18]  T. Kanada,et al.  Next generation transmission systems network beyond SDH , 1991, ICC 91 International Conference on Communications Conference Record.

[19]  Y. Kobayashi,et al.  Bandwidth Arrangement and Self-Healing Algorithm for Logical Mesh Connected Multi-Gigabit Ring Networks , 1995 .

[20]  Kiyoshi Nakagawa,et al.  Supervisory signal transmission methods for optical amplifier repeater systems , 1990, [Proceedings] GLOBECOM '90: IEEE Global Telecommunications Conference and Exhibition.

[21]  G. R. Hill A wavelength routing approach to optical communications networks , 1988, IEEE INFOCOM '88,Seventh Annual Joint Conference of the IEEE Computer and Communcations Societies. Networks: Evolution or Revolution?.

[22]  Ken-ichi Sato,et al.  Broad-band ATM network architecture based on virtual paths , 1990, IEEE Trans. Commun..

[23]  Tsong-Ho Wu A passive protected self-healing mesh network architecture and applications , 1994, TNET.

[24]  M. Murakami,et al.  A remote supervisory system based on subcarrier overmodulation for submarine optical amplifier systems , 1996 .

[25]  K. Aida,et al.  Optical amplification in trunk transmission networks , 1992, IEEE LTS.