Patents by Inventor Alistair J. Price
Alistair J. Price has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20040228635Abstract: A method of receiving optical channels including providing an optical band filter configured to filter at least one optical channel from a multiple channel optical signal and provide a band filtered optical signal. A periodic filter is configured to filter and/or shape one channel from the band filtered optical signal and provide the periodic filtered, shaped signal to a receiver and other optical system. The invention also relates to corresponding systems and apparatuses.Type: ApplicationFiled: February 19, 2004Publication date: November 18, 2004Applicant: Corvis CorporationInventor: Alistair J. Price
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Publication number: 20040208614Abstract: Systems, apparatuses, and methods for producing and utilizing orthogonal optical data signals, which can be produced by modulating electrical data signals onto orthogonal polarization components of an optical carrier traveling in opposite directions in a common modulator. The modulator can include one or more traveling wave electrodes having first and second ends with a first electrical data input connected to the first end and a second electrical data input connected to the second end.Type: ApplicationFiled: April 16, 2002Publication date: October 21, 2004Applicant: Corvis CorporationInventor: Alistair J. Price
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Publication number: 20040179851Abstract: An optical transmission system including at least one optical transmitter configured to transmit at least one signal wavelength and a tuning wavelength, an optical receiver including an optical filter having a filter bandwidth including the at least one signal wavelength and a percentage of the tuning wavelength and an optical to electrical signal converter configured to receive the at least one signal wavelength from said filter, a first tuning optical to electrical converter configured to receive a first portion of the tuning wavelength stopped by said filter, a second tuning optical to electrical converter configured to receive a second portion of the tuning wavelength passed by said filter, and a filter controller configured to tune the filter bandwidth based on the relative proportion of first and second portions of the tuning wavelength provided to the first and second tuning optical to electrical converters.Type: ApplicationFiled: March 29, 2004Publication date: September 16, 2004Applicant: Corvis CorporationInventors: Pramode Kandpal, Alistair J. Price, David F. Smith
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Patent number: 6771413Abstract: Optical systems of the present invention include amplifiers configured to achieve maximum signal channel in a span downstream of the transmitter and amplifier site and to decrease the interaction between the wavelengths at high signal channel powers. In addition, the system can include various types of optical fiber positioned in the network to provide for increased signal channel powers and higher gain efficiencies in the system.Type: GrantFiled: January 14, 2002Date of Patent: August 3, 2004Assignee: Corvis CorporationInventors: Donald M. Cornwell, Jr., John J. Veselka, Jr., Stephen G. Grubb, Thomas D. Stephens, Ruxiang Jin, Alistair J Price, Michael C. Antone
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Patent number: 6714739Abstract: An optical transmission system including at least one optical transmitter configured to transmit at least one signal wavelength and a tuning wavelength, an optical receiver including an optical filter having a filter bandwidth including the at least one signal wavelength and a percentage of the tuning wavelength and an optical to electrical signal converter configured to receive the at least one signal wavelength from said filter, a first tuning optical to electrical converter configured to receive a first portion of the tuning wavelength stopped by said filter, a second tuning optical to electrical converter configured to receive a second portion of the tuning wavelength passed by said filter, and a filter controller configured to tune the filter bandwidth based on the relative proportion of first and second portions of the tuning wavelength provided to the first and second tuning optical to electrical converters.Type: GrantFiled: June 6, 2000Date of Patent: March 30, 2004Assignee: Corvis CorporationInventors: Pramode Kandpal, Alistair J. Price, David F. Smith
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Patent number: 6661973Abstract: An optical transmission system of the present invention includes at least one transmitter configured to receive information from a plurality of optical receivers and transmit the information in a plurality of information carrying optical signal wavelengths. At least one optical receiver is configured to receive a plurality of information carrying optical signal wavelengths and a local oscillator signal. The optical receiver converts a plurality of optical signal wavelengths into a corresponding number of electrical signal frequencies. The optical systems reduce the number of transmitters and receivers required interconnecting various optical systems, as well as providing multiple wavelength regenerators and converters and add/drop devices with increased capacity and system flexibility.Type: GrantFiled: June 4, 1999Date of Patent: December 9, 2003Inventors: David R. Huber, Alistair J. Price
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Publication number: 20030210456Abstract: Apparatuses, methods, and systems are disclosed for controlling optical signal wavelength spacing by providing for simultaneous upconversion of a plurality of electrical signal on subcarrier frequencies of an optical carrier frequency with or without modulation of an electrical data signal onto the optical carrier frequency. The optical carrier lightwave is split into a plurality of split lightwaves upon which one or more electrical frequencies carrying information can be upconverted onto optical subcarriers of the lightwave carrier frequency. The relative spacings of the optical subcarrier lightwaves will thus be unaffected by variation in the carrier frequency. The optical subcarrier lightwaves can then be recombined to form the optical data signal carrying the plurality of information carried by the electrical frequencies.Type: ApplicationFiled: June 13, 2003Publication date: November 13, 2003Applicant: Corvis CorporationInventors: Alistair J. Price, Michael C. Antone
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Patent number: 6643346Abstract: A frequency detector is configured to provide reliable acquisition by a clock recovery and data regeneration circuit. A preferred frequency detector utilizes the output characteristics of a phase detector to determine a frequency difference between the recovered clock signal and the incoming data signal. The frequency detector then outputs a signal representing the frequency difference to a control device, preferably to a voltage-controlled oscillator (VCO). Upon receiving the frequency difference signal, the control device, preferably operating within a controlled-feedback loop, will begin to adjust the underlying clock frequency to approximate the incoming data frequency.Type: GrantFiled: February 23, 1999Date of Patent: November 4, 2003Assignee: Rockwell Scientific Company LLCInventors: Ken D. Pedrotti, Alistair J. Price
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Patent number: 6633690Abstract: Apparatuses, methods, and systems are disclosed for controlling optical signal wavelength spacing by providing for simultaneous upconversion of a plurality of electrical signal on subcarrier frequencies of an optical carrier frequency with or without modulation of an electrical data signal onto the optical carrier frequency. The optical carrier lightwave is split into a plurality of split lightwaves upon which one or more electrical frequencies carrying information can be upconverted onto optical subcarriers of the lightwave carrier frequency. The relative spacings of the optical subcarrier lightwaves will thus be unaffected by variation in the carrier frequency. The optical subcarrier lightwaves can then be recombined to form the optical data signal carrying the plurality of information carried by the electrical frequencies.Type: GrantFiled: June 24, 2002Date of Patent: October 14, 2003Assignee: Corvis CorporationInventors: Alistair J. Price, Michael C. Antone
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Publication number: 20030185563Abstract: Optical systems of the present invention generally include an optical signal controller disposed along an optical link between two optical nodes. The optical signal controller is configured to provide a monitoring signal from an optical signal passing between the nodes as a plurality of wavelength sub-bands at least one of which includes a plurality of signal channels. The controller generates a compensating channel having an optical power that is a function of the monitoring signal power in the plurality of wavelength sub-bands or total power. The compensating channel is combined with the optical signal to compensate for power variations in the optical signal passing between the nodes. In addition, the compensating channels can be used to transmit communication or system supervisory information between monitoring points and/or nodes in the system.Type: ApplicationFiled: March 17, 2003Publication date: October 2, 2003Applicant: Corvis CorporationInventors: Thomas D. Stephens, Mark A. Kelty, Alistair J. Price
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Publication number: 20030147138Abstract: Optical systems of the present invention include an electrical signal distortion compensator configured to electrically distort an electrical signal to offset optical distortion imposed by a Fabry-Perot filter on an optical signal corresponding to the electrical signal. The electrical signal distortion compensator can be used in an optical transmitter to distort the electrical signal prior to optical transmission, or in an optical receiver after optical transmission. The distortion compensation can be performed on a baseband signal or a modulated electrical carrier. Likewise, the distortion compensator can be deployed in combination with an optical receiver, which allows the use of the F-P filter-optical receiver combination with transmitters and receivers that do not include F-P filters or distortion compensators.Type: ApplicationFiled: March 10, 2003Publication date: August 7, 2003Applicant: Corvis CorporationInventor: Alistair J. Price
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Patent number: 6577423Abstract: Optical systems of the present invention include an electrical signal distortion compensator configured to electrically distort an electrical signal to offset optical distortion imposed by a Fabry-Perot filter on an optical signal corresponding to the electrical signal. The electrical signal distortion compensator can be used in an optical transmitter to distort the electrical signal prior to optical transmission, or in an optical receiver after optical transmission. The distortion compensation can be performed on a baseband signal or a modulated electrical carrier. Likewise, the distortion compensator can be deployed in combination with an optical receiver, which allows the use of the F-P filter-optical receiver combination with transmitters and receivers that do not include F-P filters or distortion compensators.Type: GrantFiled: September 17, 1999Date of Patent: June 10, 2003Assignee: Corvis CorporationInventor: Alistair J. Price
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Patent number: 6563614Abstract: Optical systems of the present invention generally include an optical signal controller disposed along an optical link between two optical nodes. The optical signal controller is configured to provide a monitoring signal from an optical signal passing between the nodes as a plurality of wavelength sub-bands at least one of which includes a plurality of signal channels. The controller generates a compensating channel having an optical power that is a function of the monitoring signal power in the plurality of wavelength sub-bands or total power. The compensating channel is combined with the optical signal to compensate for power variations in the optical signal passing between the nodes. In addition, the compensating channels can be used to transmit communication or system supervisory information between monitoring points and/or nodes in the system.Type: GrantFiled: May 21, 1999Date of Patent: May 13, 2003Assignee: Corvis CorporationInventors: Thomas D. Stephens, Mark A. Kelty, Alistair J. Price
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Patent number: 6529305Abstract: Apparatuses, systems, and methods which compensate for distortion of optical and electrical signals being transmitted by communications systems and components by changing the effective length of communications cables and waveguides.Type: GrantFiled: July 6, 2001Date of Patent: March 4, 2003Assignee: Corvis CorporationInventors: Derek W. Meeker, Alistair J. Price
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Patent number: 6522439Abstract: Apparatuses, methods, and systems are disclosed that provide for simultaneously upconverting electrical signals carrying information at electric frequencies onto optical subcarrier lightwave frequencies that are greater and less than the carrier frequency of the lightwave onto which the electrical frequencies were upconverted. The upconversion of the electrical signals can be performed with or without suppression of the optical carrier frequency.Type: GrantFiled: October 17, 2001Date of Patent: February 18, 2003Assignee: Corvis CorporationInventors: Alistair J. Price, Derek W. Meeker
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Publication number: 20030025971Abstract: A method of transmitting an optical communications signal, comprising receiving a first signal, encoding the signal with a differential or duobinary encoding scheme, encoding the signal with an oscillating signal component, and sub-carrier modulating the signal onto a sub-carrier of an optical carrier signal. The invention also relates to corresponding systems and apparatuses.Type: ApplicationFiled: August 23, 2002Publication date: February 6, 2003Applicant: Corvis CorporationInventors: Alistair J. Price, William Radtke, David F. Smith
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Publication number: 20020191906Abstract: Apparatuses, methods, and systems are disclosed for controlling optical signal wavelength spacing by providing for simultaneous upconversion of a plurality of electrical signal on subcarrier frequencies of an optical carrier frequency with or without modulation of an electrical data signal onto the optical carrier frequency. The optical carrier lightwave is split into a plurality of split lightwaves upon which one or more electrical frequencies carrying information can be upconverted onto optical subcarriers of the lightwave carrier frequency. The relative spacings of the optical subcarrier lightwaves will thus be unaffected by variation in the carrier frequency. The optical subcarrier lightwaves can then be recombined to form the optical data signal carrying the plurality of information carried by the electrical frequencies.Type: ApplicationFiled: June 24, 2002Publication date: December 19, 2002Applicant: Corvis CorporationInventors: Alistair J. Price, Michael C. Antone
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Patent number: 6456750Abstract: Apparatuses, methods, and systems are disclosed for controlling optical signal wavelength spacing by providing for simultaneous upconversion of a plurality of electrical signal on subcarrier frequencies of an optical carrier frequency with or without modulation of an electrical data signal onto the optical carrier frequency. The optical carrier lightwave is split into a plurality of split lightwaves upon which one or more electrical frequencies carrying information can be upconverted onto optical subcarriers of the lightwave carrier frequency. The relative spacings of the optical subcarrier lightwaves will thus be unaffected by variation in the carrier frequency. The optical subcarrier lightwaves can then be recombined to form the optical data signal carrying the plurality of information carried by the electrical frequencies.Type: GrantFiled: September 18, 2000Date of Patent: September 24, 2002Assignee: Corvis CorporationInventors: Alistair J. Price, Michael C. Antone
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Patent number: 6426821Abstract: Apparatuses, methods, and systems are disclosed that provide for simultaneously upconverting electrical signals carrying information at electric frequencies onto optical subcarrier lightwave frequencies that are greater and less than the carrier frequency of the lightwave onto which the electrical frequencies were upconverted. The upconversion of the electrical signals can be performed with or without suppression of the optical carrier frequency.Type: GrantFiled: April 7, 2000Date of Patent: July 30, 2002Assignee: Corvis CorporationInventors: Alistair J. Price, Thomas D. Stephens
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Publication number: 20020063935Abstract: Apparatus, systems, and methods for use with optical transmitters and optical upconverters, including one or more bias circuits to adjust operating parameters of the apparatus, system or device. One embodiment of the bias circuit reduces power at an optical output to suppress an optical carrier, to extinguish sidebands, or to adjust other operational parameters. Another embodiment of the bias circuit reduces specific components of an optical output signal which correspond to an electrical oscillator at an input of the upconverter. Bias circuits can be operated simultaneously or separately in different time periods.Type: ApplicationFiled: March 2, 2001Publication date: May 30, 2002Inventors: Alistair J. Price, Derek W. Meeker