Journal ArticleDOI
Network architecture for optical path transport networks
TLDR
A new layered transport network architecture on which the WDM optical path network can be effectively created is proposed that retains maximum commonality with the layered architectures developed for existing B-ISDN networks.Abstract:
This paper proposes a new layered transport network architecture on which the WDM optical path network can be effectively created. The optical path network will play a key role in the development of the transport network that will realize the bandwidth-abundant B-ISDN. This paper extends the layered transport network architecture described in ITU-T Recommendation G.803 which is applied in existing SDH networks. First, we elucidate an application example of WDM optical path networks. Next, we propose a new layered architecture for WDM-based transport networks that retains maximum commonality with the layered architectures developed for existing B-ISDN networks. The proposed architecture is composed of circuit layer networks, electrical path layer networks, optical layer networks, and physical media (fiber) networks. The optical layer is divided into an optical path layer and an optical section layer. The optical path layer accommodates electrical paths. Optical section layer networks are divided into optical multiplex section (OMS) layer networks and optical repeater section (ORS) layer networks. The OMS layer network is concerned with the end-to-end transfer of information between locations transferring or terminating optical paths, whereas the ORS layer is concerned with the transfer of information between individual optical repeaters. Finally, a detailed functional block model of WDM optical path networks, the function allocation of each layer, and an optical transport module (OTM) are developed.read more
Citations
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Journal ArticleDOI
A Review of WDM Technology and Applications
TL;DR: This work reviews the basic concepts of WDM, describes its key features and why network providers are using it, review the enabling technologies, discuss the basic operating characteristics and their associated parameters, and shows how WDM is being used worldwide in both terrestrial and undersea installations.
Journal ArticleDOI
Photonic transport network architecture and OA&M technologies to create large-scale robust networks
TL;DR: A network node interface (NNI) structure for the WDM OP transport network is proposed and the proposed NNI is defined as the optical transport module (OTM).
Patent
Line-level path protection in the optical layer
TL;DR: In this paper, the authors proposed a very fast protection switching method for link failure, where only certain pre-selected paths are rerouted at the point of failure and other traffic is left unprotected or protected at another layer.
Proceedings ArticleDOI
Demonstration of multi-degree color/direction-independent waveguide-based transponder-aggregator for flexible optical path networks
TL;DR: In this paper, a transponder-aggregator is proposed to achieve multi-degree add/drop color/direction-independent multiplexing in ROADM/OXC.
Proceedings ArticleDOI
Performance and node architecture of WDM multiple fiber ring networks
TL;DR: Multiple fiber ring (MFR) networks employing the optical path (OP) concept are discussed to realize robust networks and the criteria for selecting the most suitable architecture in terms of resource utilization is elucidated.
References
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Journal ArticleDOI
A transport network layer based on optical network elements
G.R. Hill,P.J. Chidgey,F. Kaufhold,T. Lynch,O. Sahlen,M. Gustavsson,M. Janson,B. Lagerstrom,G. Grasso,F. Meli,S. Johansson,J. Ingers,L. Fernandez,S. Rotolo,A. Antonielli,S. Tebaldini,E. Vezzoni,R. Caddedu,N. Caponio,Francesco Testa,A. Scavennec,M.J. O'Mahony,J. Zhou,A. Yu,Wolfgang Sohler,U. Rust,Harald Herrmann +26 more
TL;DR: In this paper, an approach to the realization of a broadband, flexible, multi-wavelength transport network employing an optical network layer is presented, and the transmission, switching, line, and management/supervisory subsystems and components are described.
Journal ArticleDOI
Network performance and integrity enhancement with optical path layer technologies
TL;DR: The optical path layer concept proposed exploits and consolidates the layered transport network architecture and optical technologies, and will open up new opportunities for creating a B-ISDN that is bandwidth abundant and has a high degree of integrity.
Journal ArticleDOI
Optical path cross-connect node architectures for photonic transport network
TL;DR: In this paper, the authors explored the optical path cross-connect (OPXC) node architectures that are essential components of the OPXC, which handles optical paths, is constructed with an optical switching network.
Journal ArticleDOI
Optical path cross-connect system scale evaluation using path accommodation design for restricted wavelength multiplexing
TL;DR: Novel OP accommodation design algorithms that can heuristically establish wavelength paths or virtual wavelength paths (VWPs) in the network, where each link is composed of multiple fibers are proposed.
Proceedings ArticleDOI
A wavelength routing approach to optical communications networks
TL;DR: A class of wavelength-routing optical networks is described on the basis of the interconnection of wavelength multiplexed channels that allow the reuse of wavelengths in different transmission sections and this leads to fewer wavelengths being needed.
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