System for wavelength division multiplexing/asynchronous transfer mode switching for network communication
First Claim
1. An optical communication network system, comprising:
- a plurality of optical cross-connecting switch devices each controlling a routing of optical data signals in the optical communications network system;
a plurality of fiber optic communication network rings through which data signals are transmitted and received, each of said rings being connected to at least one other ring with at least one of said plurality of optical cross-connecting switch devices such that the data signals can be transmitted and received between adjacent network rings;
a plurality of access node circuits connected to at least one of said plurality of network rings with one of said plurality of optical cross-connecting switch devices, each of said access node circuits being connected to access the data signals being transmitted and received through said network rings;
at least one user station connected to each of said plurality of access node circuits; and
at least one network controller controlling said plurality of cross-connecting switch devices and having means for configuring each of said plurality of cross-connecting switch devices to control the routing of the data signals;
wherein each of said plurality of access node circuits has a local node controller connected to said at least one network controller, whereby said at least one network controller controls configurations of said plurality of access node circuits and said plurality of cross-connecting switch devices through corresponding local node controllers.
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Accused Products
Abstract
The present invention is directed to a system for the wavelength division multiplexing/asynchronous transfer mode (WDM/ATM) operation of high-capacity optical communication networks. The optical components of the network can transport vast amounts of information, while the ATM-based electronics provides data processing, and information distribution. The capacity of the communications network to reconfigure and rearrange itself is maximized through wavelength translation of its data signals using a limited set of fixed-wavelength channels. The system incorporates an optical fiber communication network ring, or several optical fiber communication network rings that are connected to each other, through which data signals are transmitted and received. Optical WDM cross-connecting switch devices 4a-4e connect adjacent optical fiber rings 3a, 3b to each other, and control the routing of the data signals into and out of the optical fiber rings 3a, 3b. Access node circuits 2a-2d connected to the WDM cross-connecting switch devices 4a-4d can access the data signals in the optical fiber rings 3a, 3b. Each of the access node circuits 2a-2d can then route the data signals to individual user stations 5a-5h connected to it. A network controller 8 configures the WDM cross-connecting switch devices 4a-4e through their corresponding local node controllers 7.
174 Citations
22 Claims
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1. An optical communication network system, comprising:
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a plurality of optical cross-connecting switch devices each controlling a routing of optical data signals in the optical communications network system; a plurality of fiber optic communication network rings through which data signals are transmitted and received, each of said rings being connected to at least one other ring with at least one of said plurality of optical cross-connecting switch devices such that the data signals can be transmitted and received between adjacent network rings; a plurality of access node circuits connected to at least one of said plurality of network rings with one of said plurality of optical cross-connecting switch devices, each of said access node circuits being connected to access the data signals being transmitted and received through said network rings; at least one user station connected to each of said plurality of access node circuits; and at least one network controller controlling said plurality of cross-connecting switch devices and having means for configuring each of said plurality of cross-connecting switch devices to control the routing of the data signals; wherein each of said plurality of access node circuits has a local node controller connected to said at least one network controller, whereby said at least one network controller controls configurations of said plurality of access node circuits and said plurality of cross-connecting switch devices through corresponding local node controllers.
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2. An optical communication network system as claimed in claim 2, wherein each of said plurality of optical cross-connecting switch devices includes:
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a demultiplexer circuit for demultiplexing the data signals transmitted through the network into a plurality of wavelength-separated data signals, a plurality of wavelength-selection, space-division switches each configured to receive a corresponding one of said wavelength-separated data signals, each wavelength-selection, space-division switch being configured to one of a BAR state to bypass a corresponding wavelength-separated data signal through the wavelength-selection, space-division switch, and a CROSS state to transmit a corresponding wavelength-separated data signal to a corresponding access node circuit and to receive a corresponding wavelength-separated data signal from the corresponding access node circuit, and a multiplexer circuit for multiplexing the plurality of wavelength-separated data signals into the data signals transmitted through the network. - View Dependent Claims (3, 4)
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5. An optical communication network system, comprising:
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a plurality of optical cross-connecting switch devices each controlling a routing of optical data signals in the optical communications network system; a plurality of fiber optic communication network rings through which data signals are transmitted and received, each of said rings being connected to at least one other ring with at least one of said plurality of optical cross-connecting switch devices such that the data signals can be transmitted and received between adjacent network rings; a plurality of access node circuits connected to at least one of said plurality of network rings with one of said plurality of optical cross-connecting switch devices, each of said access node circuits being connected to access the data signals being transmitted and received through said network rings; at least one user station connected to each of said plurality of access node circuits; and at least one network controller controlling said plurality of cross-connecting switch devices and having means for configuring each of said plurality of cross-connecting switch devices to control the routing of the data signals; wherein each of said plurality of cross-connecting switch devices includes; a demultiplexer circuit for demultiplexing the data signals transmitted through the network into a plurality of wavelength-separated data signals, a plurality of wavelength-selection, space-division switches each configured to receive a corresponding one of said wavelength-separated data signals, each wavelength-selection, space-division switch being configured to at least one of a BAR state to bypass a corresponding wavelength-separated data signal through the wavelength selection, space-division switch, and a CROSS state to transmit a corresponding wavelength-separated data signal to a corresponding access node circuit and to receive a corresponding wavelength-separated data signal from the corresponding access node circuit, and a multiplexer circuit for multiplexing the plurality of wavelength-separated data signals into the data signals transmitted through the network. - View Dependent Claims (6, 7)
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8. An optical communication network system, comprising:
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a plurality of optical cross-connecting switch devices each controlling a routing of optical data signals in the optical communications network system; a plurality of fiber optic communication network rings through which data signals are transmitted and received, each of said rings being connected to at least one other ring with at least one of said plurality of optical cross-connecting switch devices such that the data signals can be transmitted and received between adjacent network rings; a plurality of access node circuits connected to at least one of said plurality of network rings with one of said plurality of optical cross-connecting switch devices, each of said access node circuits being connected to access the data signals being transmitted and received through said network rings; at least one user station connected to each of said plurality of access node circuits; and at least one network controller controlling said plurality of cross-connecting switch devices and having means for configuring each of said plurality of cross-connecting switch devices to control the routing of the data signals; and a plurality of optical fiber amplifiers connected in series within each of said network rings. - View Dependent Claims (9)
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10. An optical communication network system, comprising:
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a plurality of optical cross-connecting switch devices each controlling a routing of optical data signals in the optical communications network system; a plurality of fiber optic communication network rings through which data signals are transmitted and received, each of said rings being connected to at least one other ring with at least one of said plurality of optical cross-connecting switch devices such that the data signals can be transmitted and received between adjacent network rings; a plurality of access node circuits connected to at least one of said plurality of network rings with one of said plurality of optical cross-connecting switch devices, each of said access node circuits being connected to access the data signals being transmitted and received through said network rings; at least one user station connected to each of said plurality of access node circuits; and at least one network controller controlling said plurality of cross-connecting switch devices and having means for configuring each of said plurality of cross-connecting switch devices to control the routing of the data signals; wherein each of said plurality of access node circuits further includes an asynchronous transfer mode (ATM) circuit, a receiver array and a transmitter array, the receiver array being connected to an input side of the ATM circuit and having a demultiplexer for demultiplexing input data signals, a receiver amplifier circuit for amplifying the demultiplexed input data signals, and an optical link for converting the input data signals into input signals for transmission to the ATM circuit, and the transmitter array being connected to an output side of the ATM circuit and having a multiplexer for multiplexing output data signals to be outputted, a laser array connected to the multiplexer for generating the output data signals to be multiplexed, a laser driver array for driving the laser array to generate the output data signals, and an optical link for converting output signals from the ATM circuit to be transmitted to the laser driver array, wherein corresponding ones of said plurality of user stations are connected to the ATM circuit in order to access said network rings through a corresponding access node circuit, and a corresponding local node controller is connected to the ATM circuit.
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11. A communication network system, comprising:
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a plurality of optical wavelength division multiplexing (WDM) switch devices each controlling a routing of data signals in the communication network system, each of said plurality of WDM switch devices having a plurality of wavelength-selection, space-division switches each configured to receive one of a plurality of input data signals wavelength-separated from the data signals transmitted through the network; a plurality of fiber optic rings through which data signals are transmitted and received, each of said fiber optic rings being connected to at least one other fiber optic ring with at least one of said plurality of optical WDM switch devices such that data signals can be transmitted and received between adjacent fiber optic rings; a plurality of laser array access node circuits connected to at least one of said plurality of fiber optic rings with one of said plurality of optical WDM switch devices, each of said laser array access node circuits being connected to access the wavelength-separated input data signals from a corresponding WDM switch device, said plurality of optical WDM switch devices being connected between each of said plurality of laser array access node circuits and said fiber optic rings such that an optical WDM switch device controls the routing of the transmission and receiving of data signals between a corresponding fiber optic ring and laser array access node circuit, each of said laser array access node circuits having a plurality of user stations connected thereto; and at least one network controller controlling and configuring said plurality of optical WDM switch devices, said at least one network controller being connected to each of said laser array access node circuits to control corresponding optical WDM switch devices in routing the data signals; wherein each of said wavelength selection, space-division switches has means for configuring into one of a BAR state to bypass a corresponding wavelength-separated input data signal through the wavelength-selection, space-division switch, and a CROSS state to transmit a corresponding wavelength-separated input data signal to a corresponding laser array access node circuit and to receive a corresponding wavelength-separated input data signal from the corresponding laser array access node circuit. - View Dependent Claims (12, 13, 14, 15, 17)
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16. A high speed data signals communication cross-connecting system for an optical communication network comprising:
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a plurality of optical wavelength division multiplexing (WDM) switch devices for controlling a routing of data signals in the optical communication network; a plurality of fiber optic communication network rings through which data signals is transmitted and received, said network rings being connected to each other with at least one of said plurality of optical WDM switch devices such that data signals can be transmitted and received between said network rings a plurality of access node circuits connected to one of said plurality of fiber optic communication network rings with a corresponding one of said plurality of optical WDM switch devices, whereby a WDM switch controls routing of the transmission and receiving of data signals between corresponding network rings and access node circuits; a plurality of user stations connected to said network rings through a corresponding one of said plurality of access node circuits in order to access the data signals being transmitted and received through said network rings; and at least one network controller controlling said WDM switch devices and having means for configuring each of said WDM switch devices to control routing of the data signals; wherein each of said plurality of access node circuits further includes an asynchronous transfer mode (ATM) circuit, a receiver array and a transmitter output array, the receiver array being connected to an input side of the ATM circuit and having a demultiplexer for demultiplexing input data signals, a receiver amplifier circuit for amplifying the demultiplexed input data signals, an optical link for converting the input data signals into input signals for transmission to the ATM circuit, the transmitter array being connected to an output side of the ATM circuit and having a multiplexer for multiplexing output data signals to be outputted, a distributed-feedback (DFB) laser array connected to the multiplexer for generating the output data signals to be multiplexed, a laser driver array for driving the DFB laser array to generate the output data signals, and an optical link for converting output signals from the ATM circuit to be transmitted to the laser driver array, and corresponding ones of the plurality of user stations being connected to the ATM circuit in order to access the network rings through a corresponding access node circuit. - View Dependent Claims (18)
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19. A method for communicating data signals between a plurality of communication access nodes in a high-speed optical communication network, the network including a plurality of fiber optic communication network rings connected to each other, and a plurality of optical cross-connecting switch devices each connected between adjacent network rings and between a network ring and an access node circuit, said method comprising the steps of:
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configuring each of said cross-connecting switch devices to wavelength demultiplex a plurality of network data signals into input data signals each in a separate wavelength from other input data signals, selectively route said input data signals to a corresponding access node circuit or to bypass the corresponding access node circuit, and multiplex output data signals with bypassing input data signals; receiving input data signals from a cross-connecting switch device at a corresponding access node circuit based on said configuring of said cross-connecting switch devices; selectively routing said input data signals to at least one user station connected to said access node circuit or to bypass back to said cross-connecting switch device to be multiplexed; and receiving at said access node circuit output data signals from said at least one user station to be multiplexed by said cross-connecting switch device; and transmitting network data signals to said communication network rings based on the output data signals multiplexed with the bypassing input data signals from said cross-connecting switch device, said network data signals being received by at least one other of said plurality of cross-connect switch devices; wherein said step of configuring said cross-connecting switch devices includes the steps of providing control data in said network data signals, and routing said control data when demultiplexed through a corresponding access node circuit to a controller of said cross-connecting switch device. - View Dependent Claims (20, 21, 22)
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Specification