Method and apparatus for dynamic bandwidth control in a broadcast optical communications network
First Claim
1. An apparatus for providing dynamic bandwidth control to a broadcast optical communications network, comprising:
- a network element to communicate downstream to users, comprising;
a demultiplexer to separate a received optical communications signal, carrying a mixture of broadcast and targeted communications services for users, into a plurality of wavelengths;
a plurality of splitters, each splitter to receive one of said plurality of wavelengths as an input signal, and to split said input signal into a plurality of output signals;
at least one optical cross-connect switch to receive said plurality of output signals from said splitters, and to connect each output signal respectively to a pre-determined output port; and
a plurality of combiners, each combiner having at least one more input signal than the number of output signals for each said splitter wherein the at least one more input signal carries at least one control channel, operating on a control wavelength, to control selection of the pre-determined output ports by which the switch, and each combiner to receive, combine, and output a plurality of said output signals from said switch.
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Accused Products
Abstract
A method and apparatus provide a network element and associated control system in a broadcast optical communications network, including an optical switch (switch fabric), to cross-connect selected wavelengths input to the switch to pre-determined output ports, under the control of a control (supervisory) channel for efficient upstream and downstream delivery of optical communications services. The network element includes an optical switch controller to monitor the communications traffic input to and output from the optical switch ports in order to dynamically change output port connections for the input wavelengths as controlled by the control channel.
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Citations
33 Claims
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1. An apparatus for providing dynamic bandwidth control to a broadcast optical communications network, comprising:
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a network element to communicate downstream to users, comprising; a demultiplexer to separate a received optical communications signal, carrying a mixture of broadcast and targeted communications services for users, into a plurality of wavelengths; a plurality of splitters, each splitter to receive one of said plurality of wavelengths as an input signal, and to split said input signal into a plurality of output signals; at least one optical cross-connect switch to receive said plurality of output signals from said splitters, and to connect each output signal respectively to a pre-determined output port; and a plurality of combiners, each combiner having at least one more input signal than the number of output signals for each said splitter wherein the at least one more input signal carries at least one control channel, operating on a control wavelength, to control selection of the pre-determined output ports by which the switch, and each combiner to receive, combine, and output a plurality of said output signals from said switch. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 32, 33)
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14. An apparatus for providing dynamic bandwidth control to a broadcast optical communications network, comprising:
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a network element for communicating downstream to users; a demultiplexer to separate a received optical communications signal into a plurality of wavelengths; a plurality of splitters, each splitter to receive one of said plurality of wavelengths as an input signal, and to split said input signal into a plurality of output signals; at least one optical cross-connect switch to receive said plurality of output signals from said splitters, and to connect each output signal respectively to a pre-determined output port; a plurality of combiners, each combiner having at least one more input signal than the number of output signals for each said splitter wherein the at least one more input signal carries at least one control channel, operating on a control wavelength, and each combiner to receive and combine a plurality of said output signals from said switch, and to output said combined signals; and a switch controller to monitor said switch including the ports, and to receive and process information carried by said control channel, said control channel being carried by said received optical communications signal, and to output said control channel into each said combiner.
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15. A control system to provide dynamic bandwidth control to a broadcast optical communications network, comprising:
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a system software module to control and monitor a network element, the network element comprising; a demultiplexer to separate a received optical communications signal, carrying a mixture of broadcast and targeted communications services for users, into a plurality of wavelengths; a plurality of splitters, each splitter to receive one of said plurality of wavelengths as an input signal, and to split said input signal into a plurality of output signals; at least one optical cross-connect switch to receive said plurality of output signals from said splitters, and to connect each output signal respectively to a pre-determined output port; and a plurality of combiners, each combiner having at least one more input signal than the number of output signals for each said splitter wherein the at least one more input signal carries at least one control channel, operating on a control wavelength, to control selection of the pre-determined output ports by the switch, and each combiner to receive, combine, and output a plurality of said output signals from said switch. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
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31. A method to provide dynamic bandwidth control to a broadcast optical communications network, comprising:
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receiving and separating an optical communications signal into a plurality of wavelength signals; splitting each wavelength signal into a plurality of splitted input signals; connecting each input signal respectively to a pre-determined output port to generate an output signal; and combining pre-determined groups of output signals together to generate a plurality of grouped output signals, where the output signals each include at least one more output signal than splitted input signal wherein the at least one more output signal carries at least one control channel, operating on a control wavelength, to control connecting of the splitted input signals to the output ports.
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Specification