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[Author] Tadahiko YASUI(6hit)

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  • Switching Node Consideration from the Aspect of Transmission Characteristics in Wavelength Assignment Photonic Network (WAPN)

    Tadahiko YASUI  Yoshiaki NAKANO  

     
    PAPER-Circuit Switching and Cross-Connecting

      Vol:
    E82-B No:2
      Page(s):
    306-316

    By adopting a network architecture in which not only a calling but also a called terminal can select a wavelength, a novel WDM network becomes possible. This we call Wavelength Assignment Photonic Network (WAPN). In this network wavelengths are a kind of network resources and according to requests from terminals, wavelengths are allocated or assigned to calls. In the system a wavelength used for a call is to be used for another call after the call is terminated. By supplying wavelengths to the home, a bitrate-free, protocol free or even transmission method free network can be realized. In this paper, from a viewpoint of S/N or Q factor, WAPN is evaluated with special focus on the node architecture--i. e. , from the viewpoint of node size, number of switching stages, crosstalk level,and losses, because the allowable node size is the crucial issue to decide the whole network capacity. After brief explanations of this proposed system, the model for system evaluations will be established and a node system is to be evaluated for some practical parameter values considering especially traffic characteristics of a node. As a result of this study a node system with capacity more than 100 thousands erl (about 20 Tbps throughput) can be constructed using present available technologies, which will enable us to construct large WAPN network with radius of 2,000 km and subscribers of about 50 millions.

  • A Proposal of a New Photonic FDM Switching System FAPS--Frequency Assign Photonic Switching System--

    Tadahiko YASUI  Aritomo UEMURA  

     
    PAPER

      Vol:
    E77-B No:2
      Page(s):
    174-183

    Among various photonic switching technologies, photonic frequency division multiplexing technology is most promising. In this paper a novel photonic FDM (Frequency Division Multiplexing) system is proposed. The proposed system consists of n (multiplicity of frequencies) independent subnetworks, each of which is identified by a specific frequency, and of which each network topology is identical. When a connection is required by a terminal, the network selects a subnetwork that can afford it, and assigns a frequency representing the selected subnetwork to the terminal. This system eliminates frequency converting devices and traffic concentration equipment, which will reduce the size and cost of the system. A very small sized switching system of very large capacity will be easily realized. In this paper, first we will address the basic concept of the proposed system, and then discuss some technical problems and their solutions concerning network configuration, switch matrix structure, subscriber network configuration, control scheme and frequency multiplicity. Some experimental results are also mentioned.

  • Switching Node Consideration from the Aspect of Transmission Characteristics in Wavelength Assignment Photonic Network (WAPN)

    Tadahiko YASUI  Yoshiaki NAKANO  

     
    PAPER-Circuit Switching and Cross-Connecting

      Vol:
    E82-C No:2
      Page(s):
    254-264

    By adopting a network architecture in which not only a calling but also a called terminal can select a wavelength, a novel WDM network becomes possible. This we call Wavelength Assignment Photonic Network (WAPN). In this network wavelengths are a kind of network resources and according to requests from terminals, wavelengths are allocated or assigned to calls. In the system a wavelength used for a call is to be used for another call after the call is terminated. By supplying wavelengths to the home, a bitrate-free, protocol free or even transmission method free network can be realized. In this paper, from a viewpoint of S/N or Q factor, WAPN is evaluated with special focus on the node architecture--i. e. , from the viewpoint of node size, number of switching stages, crosstalk level,and losses, because the allowable node size is the crucial issue to decide the whole network capacity. After brief explanations of this proposed system, the model for system evaluations will be established and a node system is to be evaluated for some practical parameter values considering especially traffic characteristics of a node. As a result of this study a node system with capacity more than 100 thousands erl (about 20 Tbps throughput) can be constructed using present available technologies, which will enable us to construct large WAPN network with radius of 2,000 km and subscribers of about 50 millions.

  • Internetworking Based on Wavelength Assignment Photonic Switching System (WAPS)

    Tadahiko YASUI  Kumio KASAHARA  Yoshiaki NAKANO  

     
    PAPER

      Vol:
    E83-B No:10
      Page(s):
    2312-2320

    Wavelength Assignment Photonic Switching System (WAPS) provides a wavelength for an end-to-end communication. In this way the features of wavelength can be fully utilized by users. We will give an architectural proposal in which two types of connections over WAPS network are provided and are adaptively used according to service demand by customers. One is a connection established semi-permanently between edge routers and relay-routers and the other is a connection established on flow-by-flow basis between edge routers. We will compare with conventional router networks in terms of data-transfer time. Pre-processing time is a crucial issue in connection-oriented networks, and this is very much reduced thanks to the WAPS network structure.

  • Internet Access System with GMPLS Architecture Configured on Wavelength Assignment Photonic Switching System

    Tadahiko YASUI  Takuya KAMINOGOU  Takayuki NAKATA  Hironari MATSUDA  

     
    PAPER-Fiber-Optic Transmission for Communications

      Vol:
    E90-B No:4
      Page(s):
    836-844

    We have successfully applied Generalized Multiprotocol Label Switching (GMPLS) architecture to the Wavelength Assignment Photonic Switching System (WAPS) to create an internet access system that can provide, between terminals, not only conventional best-effort type of IP packet forwarding, but also high-speed and Quality of Service (QoS)-guaranteed IP forwarding. In this paper the system architecture, system specifications, and system hardware/software implementations are described.

  • A Challenge to Access/Backbone Integrated Network

    Hironari MATSUDA  Takuya KAMINOGOU  Tadahiko YASUI  

     
    SURVEY PAPER-Systems and Technologies

      Vol:
    E90-B No:8
      Page(s):
    1960-1967

    An integration of the access/backbone network is expected to become indispensable in the future. We analyze the current and future optical networks and we describe the promising technologies. GMPLS architecture in backbone networks and WDM PON architecture in access networks will play the most important roles. We overview recent studies on the access/backbone integrated network to achieve guaranteed QoS. We also describe the developed system architecture as a milestone toward the access/backbone integrated network.