Patents by Inventor Ut-Va Koc
Ut-Va Koc 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).
-
Patent number: 10268614Abstract: A method and architecture for operating with distributed (or segmented) on-chip digital interfaces such as the Inter-Integrated Circuit protocol and a Serial Peripheral Interface protocol. This method and architecture, illustratively, divides the available address space of the digital interface register arrays of a device into one or more segments referred to as a fundamental digital interface circuit. Such segmentation allows for each fundamental digital interface circuit to be placed in proximity of the digitally controlled circuit(s) (e.g., analog circuit(s)) which share some operational connection and for exchanging communication in accordance with a plurality of inputs to the device.Type: GrantFiled: April 19, 2016Date of Patent: April 23, 2019Assignee: NOKIA OF AMERICA CORPORATIONInventors: Shahriar Shahramian, Yves Baeyens, Ut-Va Koc
-
Publication number: 20170300438Abstract: A method and architecture for operating with distributed (or segmented) on-chip digital interfaces such as the Inter-Integrated Circuit protocol and a Serial Peripheral Interface protocol. This method and architecture, illustratively, divides the available address space of the digital interface register arrays of a device into one or more segments referred to as a fundamental digital interface circuit. Such segmentation allows for each fundamental digital interface circuit to be placed in proximity of the digitally controlled circuit(s) (e.g., analog circuit(s)) which share some operational connection and for exchanging communication in accordance with a plurality of inputs to the device.Type: ApplicationFiled: April 19, 2016Publication date: October 19, 2017Applicant: Alcatel-Lucent USA Inc.Inventors: Shahriar Shahramian, Yves Baeyens, Ut-Va Koc
-
Patent number: 8078065Abstract: According to one embodiment, an optical receiver adapted to recover OOK or PAM data carried by a modulated optical carrier has an optical detector adapted to produce a sequence of vector pairs having first and second digital vectors indicative of complex values of first and second polarization components, respectively, of the modulated optical carrier at a corresponding sampling time. The optical receiver also has a digital processor that is connected to receive the sequence and is adapted to perform a rotation on each pair in a manner that tends to compensate for polarization rotation produced by transmitting the modulated optical carrier from an optical transmitter thereof to the optical receiver. The digital processor is further adapted to estimate values of the OOK or PAM data encoded onto each of the first and second polarization components based on the vectors produced by the rotation in a manner responsive to values of energy errors in the estimated values.Type: GrantFiled: December 19, 2007Date of Patent: December 13, 2011Assignee: Alcatel LucentInventor: Ut-Va Koc
-
Patent number: 8073345Abstract: A method for determining symbols PSK modulated on an optical carrier includes interfering a first polarization component of the modulated optical carrier and a reference optical carrier in a first optical mixer and interfering the first polarization component of the modulated optical carrier and the reference with a different relative phase in a second optical mixer. The method also includes sampling the interfered carriers from the first optical mixer to produce first digital sampled values and sampling the interfered carriers from the second optical mixer to produce second digital sampled values. The first and second digital sampled values of a sampling period form a first complex sampling value thereof. The method also includes offsetting a phase of a complex signal value corresponding to each first complex sampling value to correct for a phase error caused by a frequency offset between the modulated and reference optical carriers.Type: GrantFiled: December 22, 2006Date of Patent: December 6, 2011Assignee: Alcatel LucentInventors: Young-Kai Chen, Noriaki Kaneda, Ut-Va Koc, Andreas Bertold Leven
-
Patent number: 8023834Abstract: A method for operating an optical receiver includes at each of a sequence of sampling times, producing a first 2D complex digital signal vector whose first component is indicative of a phase and amplitude of one polarization component of a modulated optical carrier and whose second component is indicative of a phase and amplitude of another polarization component of the carrier. For each one of the sampling times, the method includes constructing a second 2D complex digital signal vector that is a rotation of the first 2D complex digital vector for the one of sampling times. The rotation compensates a polarization rotation produced by transmission of the modulated optical carrier between an optical transmitter and the optical receiver.Type: GrantFiled: May 13, 2010Date of Patent: September 20, 2011Assignee: Alcatel LucentInventor: Ut-Va Koc
-
Publication number: 20100221020Abstract: A method for operating an optical receiver includes at each of a sequence of sampling times, producing a first 2D complex digital signal vector whose first component is indicative of a phase and amplitude of one polarization component of a modulated optical carrier and whose second component is indicative of a phase and amplitude of another polarization component of the carrier. For each one of the sampling times, the method includes constructing a second 2D complex digital signal vector that is a rotation of the first 2D complex digital vector for the one of sampling times. The rotation compensates a polarization rotation produced by transmission of the modulated optical carrier between an optical transmitter and the optical receiver.Type: ApplicationFiled: May 13, 2010Publication date: September 2, 2010Inventor: Ut-Va Koc
-
Patent number: 7747169Abstract: A method for operating an optical receiver includes at each of a sequence of sampling times, producing a first 2D complex digital signal vector whose first component is indicative of a phase and amplitude of one polarization component of a modulated optical carrier and whose second component is indicative of a phase and amplitude of another polarization component of the carrier. For each one of the sampling times, the method includes constructing a second 2D complex digital signal vector that is a rotation of the first 2D complex digital vector for the one of sampling times. The rotation compensates a polarization rotation produced by transmission of the modulated optical carrier between an optical transmitter and the optical receiver.Type: GrantFiled: December 22, 2006Date of Patent: June 29, 2010Assignee: Alcatel-Lucent USA Inc.Inventor: Ut-Va Koc
-
Patent number: 7747177Abstract: A receiver for coherent detection of a PSK modulated optical carrier includes an optical detector, digital-to-analog converters, and a digital module. The optical detector is configured to mix the modulated optical carrier with two phase components of a reference optical carrier and to produce analog output signals representative of optical signals produced by said mixing. The digital-to-analog converters are connected to receive the analog output signals and to produce digital signals from the received analog output signals. The digital module is connected to receive the digital signals and to perform one of compensating the received digital signals for a conjugate phase misalignment between the mixed components, extracting phase of the received digital signals, and estimating a frequency offset between the two carriers from the received digital signals.Type: GrantFiled: August 15, 2005Date of Patent: June 29, 2010Assignee: Alcatel-Lucent USA Inc.Inventors: Young-Kai Chen, Ut-Va Koc, Andreas Bertold Leven
-
Patent number: 7711273Abstract: In one embodiment, a receiver of the invention has an optical detector coupled to a digital processor. The optical detector is adapted to mix the received optical quadrature-amplitude modulation (QAM) signal with an optical local oscillator (LO) signal having a time-varying phase offset with respect to the carrier frequency of the QAM signal to produce two digital measures of the QAM signal. The digital processor is adapted to: (i) determine the amplitude and phase differentials for each QAM-symbol transition based on these digital measures; (ii) adjust each phase differential for an amount of phase drift associated with the time-varying phase offset; (iii) map each QAM-symbol transition onto a constellation point of a 2D decision map using the transition's amplitude differential and adjusted phase differential; and (iv) based on the mapping results, recover the data encoded in the optical QAM signal.Type: GrantFiled: March 3, 2006Date of Patent: May 4, 2010Assignee: Alcatel-Lucent USA Inc.Inventor: Ut-Va Koc
-
Patent number: 7688918Abstract: In one embodiment, a receiver of the invention has a detector coupled to a digital processor. The detector is adapted to mix the received PSK signal with a local oscillator (LO) signal having a time-varying phase offset with respect to the carrier frequency of the PSK signal to produce a digital measure of the PSK signal.Type: GrantFiled: July 7, 2006Date of Patent: March 30, 2010Assignee: Alcatel-Lucent USA Inc.Inventor: Ut-Va Koc
-
Patent number: 7650084Abstract: An optical heterodyne receiver and a method of extracting data from a phase-modulated input optical signal. In one embodiment, the optical heterodyne receiver includes: (1) a photonic quadrature demodulator having first and second optical inputs and first and second electrical outputs and configured to generate at the first and second electrical outputs an in-phase signal and a quadrature-phase signal, respectively, in response to receiving a modulated optical signal at the first optical input and a reference optical oscillator signal at the second optical input, (2) a passive radio frequency single sideband demodulator coupled to the photonic quadrature demodulator and configured to extract at least one sideband of the in-phase signal or the quadrature-phase signal and (3) at least one analog-to-digital converter coupled to the passive radio frequency single sideband demodulator and configured to receive and sample the at least one sideband.Type: GrantFiled: September 27, 2005Date of Patent: January 19, 2010Assignee: Alcatel-Lucent USA Inc.Inventors: Young-Kai Chen, Ut-Va Koc, Andreas Leven
-
Patent number: 7496298Abstract: An apparatus and method for use in an adaptive optical equalizer including, in one embodiment an optical equalizer having an input and output coupled to receive an incoming optical signal and configured to generate an output optical signal by phase modulation and/or amplitude modulation of the receive optical signal in response to electronic control signals. A photodiode is configured to receive the output optical signal and generate an representative current signal. A control signal generator is configured to generate the electronic control signals in accordance with predetermined criteria and in response to the representative current signal from the photodiode. An interferometer is connected to receive the incoming and output optical signal from the optical equalizer, the differential amplifier is configured to receive electronic versions of outputs from the interferometer for generating a difference signal and supplying the difference signal to the control signal generator.Type: GrantFiled: November 5, 2004Date of Patent: February 24, 2009Assignee: Alcatel-Lucent USA Inc.Inventors: Young-Kai Chen, Ut-Va Koc, Andreas Leven
-
Patent number: 7471904Abstract: A method and apparatus are provided for performing electronic equalization in optical communication systems. Coefficient values in equalizers, such as feed forward equalizers or decision feedback equalizers, are updated using higher-order algorithms in the Least-Mean-2Nth-Order family. An optical receiver includes a photo-detector for converting a received optical signal to an electrical signal; and an equalizer for removing intersymbol interference from the electrical signal, wherein coefficients of the equalizer are updated based upon a least-mean 2Nth-order (LMN) algorithm (N is greater than one). Feed forward equalizer and decision feedback equalizer implementations are disclosed. The non-symmetric nature of optical noise is addressed by varying A slicer threshold based on an incoming signal distribution to reduce bit errors.Type: GrantFiled: July 25, 2003Date of Patent: December 30, 2008Assignee: Alcatel-Lucent USA Inc.Inventors: Noriaki Kaneda, Ut-Va Koc, Kun-Yii Tu
-
Publication number: 20080152363Abstract: According to one embodiment, an optical receiver adapted to recover OOK or PAM data carried by a modulated optical carrier has an optical detector adapted to produce a sequence of vector pairs having first and second digital vectors indicative of complex values of first and second polarization components, respectively, of the modulated optical carrier at a corresponding sampling time. The optical receiver also has a digital processor that is connected to receive the sequence and is adapted to perform a rotation on each pair in a manner that tends to compensate for polarization rotation produced by transmitting the modulated optical carrier from an optical transmitter thereof to the optical receiver. The digital processor is further adapted to estimate values of the OOK or PAM data encoded onto each of the first and second polarization components based on the vectors produced by the rotation in a manner responsive to values of energy errors in the estimated values.Type: ApplicationFiled: December 19, 2007Publication date: June 26, 2008Applicant: LUCENT TECHNOLOGIES INC.Inventor: Ut-Va Koc
-
Publication number: 20080152362Abstract: A method for operating an optical receiver includes at each of a sequence of sampling times, producing a first 2D complex digital signal vector whose first component is indicative of a phase and amplitude of one polarization component of a modulated optical carrier and whose second component is indicative of a phase and amplitude of another polarization component of the carrier. For each one of the sampling times, the method includes constructing a second 2D complex digital signal vector that is a rotation of the first 2D complex digital vector for the one of sampling times. The rotation compensates a polarization rotation produced by transmission of the modulated optical carrier between an optical transmitter and the optical receiver.Type: ApplicationFiled: December 22, 2006Publication date: June 26, 2008Inventor: Ut-Va Koc
-
Publication number: 20080152361Abstract: A method for determining symbols PSK modulated on an optical carrier includes interfering a first polarization component of the modulated optical carrier and a reference optical carrier in a first optical mixer and interfering the first polarization component of the modulated optical carrier and the reference with a different relative phase in a second optical mixer. The method also includes sampling the interfered carriers from the first optical mixer to produce first digital sampled values and sampling the interfered carriers from the second optical mixer to produce second digital sampled values. The first and second digital sampled values of a sampling period form a first complex sampling value thereof. The method also includes offsetting a phase of a complex signal value corresponding to each first complex sampling value to correct for a phase error caused by a frequency offset between the modulated and reference optical carriers.Type: ApplicationFiled: December 22, 2006Publication date: June 26, 2008Inventors: Young-Kai Chen, Noriaki Kaneda, Ut-Va Koc, Andreas Bertold Leven
-
Publication number: 20080008268Abstract: In one embodiment, a receiver of the invention has a detector coupled to a digital processor. The detector is adapted to mix the received PSK signal with a local oscillator (LO) signal having a time-varying phase offset with respect to the carrier frequency of the PSK signal to produce a digital measure of the PSK signal.Type: ApplicationFiled: July 7, 2006Publication date: January 10, 2008Inventor: Ut-Va Koc
-
Publication number: 20070206963Abstract: In one embodiment, a receiver of the invention has an optical detector coupled to a digital processor. The optical detector is adapted to mix the received optical quadrature-amplitude modulation (QAM) signal with an optical local oscillator (LO) signal having a time-varying phase offset with respect to the carrier frequency of the QAM signal to produce two digital measures of the QAM signal. The digital processor is adapted to: (i) determine the amplitude and phase differentials for each QAM-symbol transition based on these digital measures; (ii) adjust each phase differential for an amount of phase drift associated with the time-varying phase offset; (iii) map each QAM-symbol transition onto a constellation point of a 2D decision map using the transition's amplitude differential and adjusted phase differential; and (iv) based on the mapping results, recover the data encoded in the optical QAM signal.Type: ApplicationFiled: March 3, 2006Publication date: September 6, 2007Inventor: Ut-Va Koc
-
Publication number: 20070071456Abstract: An optical heterodyne receiver and a method of extracting data from a phase-modulated input optical signal. In one embodiment, the optical heterodyne receiver includes: (1) a photonic quadrature demodulator having first and second optical inputs and first and second electrical outputs and configured to generate at the first and second electrical outputs an in-phase signal and a quadrature-phase signal, respectively, in response to receiving a modulated optical signal at the first optical input and a reference optical oscillator signal at the second optical input, (2) a passive radio frequency single sideband demodulator coupled to the photonic quadrature demodulator and configured to extract at least one sideband of the in-phase signal or the quadrature-phase signal and (3) at least one analog-to-digital converter coupled to the passive radio frequency single sideband demodulator and configured to receive and sample the at least one sideband.Type: ApplicationFiled: September 27, 2005Publication date: March 29, 2007Applicant: Lucent Technologies Inc.Inventors: Young-Kai Chen, Ut-Va Koc, Andreas Leven
-
Publication number: 20070036555Abstract: A receiver for coherent detection of a PSK modulated optical carrier includes an optical detector, digital-to-analog converters, and a digital module. The optical detector is configured to mix the modulated optical carrier with two phase components of a reference optical carrier and to produce analog output signals representative of optical signals produced by said mixing. The digital-to-analog converters are connected to receive the analog output signals and to produce digital signals from the received analog output signals. The digital module is connected to receive the digital signals and to perform one of compensating the received digital signals for a conjugate phase misalignment between the mixed components, extracting phase of the received digital signals, and estimating a frequency offset between the two carriers from the received digital signals.Type: ApplicationFiled: August 15, 2005Publication date: February 15, 2007Inventors: Young-Kai Chen, Ut-Va Koc, Andreas Leven