Patents by Inventor Stefano CALABRÒ
Stefano CALABRÒ 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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Patent number: 11980146Abstract: An agricultural photovoltaic structure (1) is described comprising at least one support structure (2), photovoltaic panels (3) and glass (4) supported by the support structure (2), irrigation means (7) for an underlying agricultural land (6), lighting means (5) of the underlying agricultural land (6), and control means. The support structure (2) comprises at least one frame (23) able to support, side by side, both the photovoltaic panels (3) and the glasses (4), implementing a cover over the agricultural land (6) partly suitable for diffusing light over the underlying agricultural land (6) by the glass (4), The irrigation means (7) include nozzles able to wet the lower part of the photovoltaic panels (3) thus cooling them, the water then falling by gravity onto the agricultural land (6). The control means are able to activate the irrigation means (7) and the lighting means (5) on the basis of sensors.Type: GrantFiled: February 24, 2022Date of Patent: May 14, 2024Assignee: TEP RENEWABLES LTDInventors: Maurizio Croce, Stefano Calabro′
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Publication number: 20230403077Abstract: A method for optical communication between transceivers through an optical link for chromatic dispersion pre-compensation, includes generating and sending, by a second transceiver, a first CD pre-compensated optical signal and a second CD pre-compensated optical signal, to the first transceiver through the optical link. The method further includes receiving, by a first transceiver, the first and second CD pre-compensated optical signals, and calculating a first residual chromatic dispersion (RCD) value from the received first CD pre-compensated optical signal, and a second RCD value from the received second CD pre-compensated optical signal. The method further includes calculating, by the first transceiver, a third PCD filter using the first RCD value, and a fourth PCD filter using the second RCD value. The third PCD filter and the fourth PCD filters are used to generate and send two CD pre-compensated optical signals to the second transceiver, which provides tunable CD pre-compensation capability.Type: ApplicationFiled: August 14, 2023Publication date: December 14, 2023Inventors: Stefano Calabro, Changsong Xie, Jinlong Wei
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Patent number: 11658860Abstract: A transmitting device configured to obtain a message to be transmitted; map the obtained message onto a two-dimensional 2n-symbol constellation to obtain a sequence of discrete constellation symbols, where n is an odd number not less than 3. A receiving device configured to receive a sequence of noisy discrete constellation symbols; demap the sequence of noisy discrete constellation symbols to output data using a two-dimensional 2n-symbol constellation, where n is an odd number not less than 3.Type: GrantFiled: August 10, 2021Date of Patent: May 23, 2023Assignee: HUAWEI TECHNOLOGIES CO., LTD.Inventors: Stefano Calabro, Maximilian Schaedler, Fabio Pittala, Maxim Kuschnerov
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Publication number: 20230148487Abstract: An agricultural photovoltaic structure (1) is described comprising at least one support structure (2), photovoltaic panels (3) and glass (4) supported by the support structure (2), irrigation means (7) for an underlying agricultural land (6), lighting means (5) of the underlying agricultural land (6), and control means. The support structure (2) comprises at least one frame (23) able to support, side by side, both the photovoltaic panels (3) and the glasses (4), implementing a cover over the agricultural land (6) partly suitable for diffusing light over the underlying agricultural land (6) by the glass (4), The irrigation means (7) include nozzles able to wet the lower part of the photovoltaic panels (3) thus cooling them, the water then falling by gravity onto the agricultural land (6). The control means are able to activate the irrigation means (7) and the lighting means (5) on the basis of sensors.Type: ApplicationFiled: February 24, 2022Publication date: May 18, 2023Applicant: TEP RENEWABLES LtdInventors: Maurizio CROCE, Stefano CALABRO
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Publication number: 20230129067Abstract: The present disclosure relates to a digital filter arrangement (DFA) for compensating group velocity dispersion (GVD) in an optical transmission system (OTS) wherein the DFA is configured to receive a sequence of samples of a digital input signal in the time domain in the form of consecutive blocks of size L. The DFA is configured to generate M discrete Fourier transforms of a current overlap block of a size N greater than the size L and of M?1 delayed versions of the current overlap block. The DFA is configured to filter the entries of the generated M discrete Fourier transforms to generate an output discrete Fourier transform with N entries, wherein the compensation filter is implemented by a delay network and a linear combination algorithm.Type: ApplicationFiled: December 23, 2022Publication date: April 27, 2023Inventors: Stefano Calabro, Changsong Xie
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Patent number: 11558113Abstract: Disclosed herein is a transponder comprising a transmitter and a receiver. The transponder further comprises a receiver input amplifier, a bypass line, and a control unit configured for determining the performance of the transponder in relation to an OSNR related parameter, by controlling the transponder to generate a noise signal to be received by the receiver. The receiver input amplifier is operated to thereby cause ASE in the receiver input amplifier to facilitate the determination. A test signal is generated at the transmitter Said noise signal and said test signal, and/or one or more respective replicas thereof, are superimposed to form a combined signal to be received by said receiver to further facilitate determination of said performance related parameter based on said combined signal, wherein for generating said combined signal, said test signal is fed from the transmitter to the receiver by means of said bypass line.Type: GrantFiled: February 5, 2019Date of Patent: January 17, 2023Assignee: XEION NETWORKS S.A.R.L.Inventors: Stefano Calabrò, Lutz Rapp, Bernhard Spinnler
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Patent number: 11296796Abstract: Disclosed herein is a dual parallel Mach-Zehnder-modulator (DPMZM) device comprising a DPMZM 10 having first and second inner MZMs arranged parallel to each other. The first inner MZM generates an in-phase component EI of an optical signal in response to a first driving voltage VI, and the second inner MZM generates a quadrature component EQ of said optical signal in response to a second driving voltage VQ. Further disclosed is a calculation unit 52 configured for receiving an in-phase component yI and a quadrature component yQ of a desired base-band signal, and for calculating pre-distorted first and second driving voltages VI, VQ. The calculation of the pre-distorted first and second driving voltages VI, VQ is based on a model of said DPMZM 10 accounting for I-Q cross-talk, and using an algorithm that determines said first and second driving voltages VI, VQ each as a function of both of said in-phase and quadrature components yI, yQ of said base-band signal.Type: GrantFiled: February 26, 2019Date of Patent: April 5, 2022Assignee: XIEON NETWORKS S.a.r.l.Inventors: Alessandro Bianciotto, Stefano Calabró, Maxim Kuschnerov, Mahdi Mezghanni, Antonio Napoli, Bernhard Spinnler
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Patent number: 11190306Abstract: A system for determining a channel margin of a data transmission channel (DTC) using error correction under real-world channel conditions is described. The system includes a monitoring unit, an operating state determining unit and a data processing unit. The monitoring unit monitors data transmission along the DTC and estimates a statistical distribution of errors (H) in the transmission of data. The operating state determining unit determines a current value of an operating state parameter for the DTC. The data processing unit determines a reference channel margin associated with said current value of the operating state parameter for a reference channel and the error correction scheme employed, provides a statistical distribution of errors (HR) associated with said reference channel for said current value of said operating state parameter, compute a deviation of H and HR, and computes a reduction of the reference channel margin.Type: GrantFiled: December 20, 2019Date of Patent: November 30, 2021Assignee: XIEON NETWORKS S.a.r.l.Inventor: Stefano Calabró
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Publication number: 20210367828Abstract: A transmitting device configured to obtain a message to be transmitted; map the obtained message onto a two-dimensional 2n-symbol constellation to obtain a sequence of discrete constellation symbols, where n is an odd number not less than 3. A receiving device configured to receive a sequence of noisy discrete constellation symbols; demap the sequence of noisy discrete constellation symbols to output data using a two-dimensional 2n-symbol constellation, where n is an odd number not less than 3.Type: ApplicationFiled: August 10, 2021Publication date: November 25, 2021Inventors: Stefano Calabro, Maximilian Schaedler, Fabio Pittala, Maxim Kuschnerov
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Patent number: 11139834Abstract: Disclosed herein is a decoder 10 for decoding a family of L rate compatible parity check codes, said family of parity check codes comprising a first code that can be represented by a bipartite graph having variable nodes, check nodes, and edges, and L?1 codes of increasingly lower code rate, among which the i-th code can be represented by a bipartite graph corresponding to the bipartite graph representing the (i?1)-th code, to which an equal number of ni variable nodes and check nodes are added, wherein the added check nodes are connected via edges with selected ones of the variable nodes included in said i-th code, while the added variable nodes are connected via edges with selected added check nodes only. The decoder comprising L check node processing units 14, among which the i-th check node processing unit processes only the check nodes added in the i-th code over the (i?1)-th code, wherein said L check node processing units 14 are configured to operate in parallel.Type: GrantFiled: April 13, 2017Date of Patent: October 5, 2021Assignee: XIEON NETWORKS S.a.r.l.Inventor: Stefano Calabrò
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Publication number: 20210184775Abstract: A method for determining a model representation for an optical transmitter comprises determining a quantity of a subsequence of output signals of an optical transmitter, the output signals being emitted in response to a sequence of input signals provided to the optical transmitter, and determining a model representation for the optical transmitter based on the determined quantity, wherein the quantity only represents a part of the information encoded in the subsequence of the output signals.Type: ApplicationFiled: September 14, 2018Publication date: June 17, 2021Inventors: Stefano Calabro, Lutz Rapp, Bernhard Spinnler
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Patent number: 10917170Abstract: Disclosed herein is a method for transmitting digital data in a super channel, in which a set of carriers are packed in a predetermined bandwidth. The set of carriers comprises higher and lower edge carriers having the highest and lowest wavelengths, respectively, among said set of earners, wherein data is transmitted via the higher and lower edge carriers using a corresponding modulation format, each modulation format using a constellation diagram comprising a number of symbols, wherein a binary address is associated with each symbol.Type: GrantFiled: March 23, 2017Date of Patent: February 9, 2021Assignee: XIEON NETWORKS S.a.r.l.Inventors: Danish Rafique, Stefano Calabró
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Publication number: 20210021338Abstract: Disclosed herein is a transponder (14), comprising a transmitter (18) for generating and transmitting an optical signal and a receiver (20), wherein said receiver (20) comprises a receiver input amplifier (40) at the receiver's input.Type: ApplicationFiled: February 5, 2019Publication date: January 21, 2021Inventors: Stefano CALABRÒ, Lutz RAPP, Bernhard SPINNLER
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Publication number: 20200336208Abstract: A system for determining skew comprises an optical transmitter unit adapted to generate an optical output signal with a first plurality of signal components and adapted to feed the optical output signal into an optical output path; an optical receiver unit adapted to receive an optical input signal with a second plurality of signal components from an optical input path; and an optical loopback path adapted to connect the optical output path to the optical input path. The optical loopback path is adapted to couple the first plurality of signal components of the optical output signal at least partly with the second plurality of signal components of the optical input signal. The system further comprises an analysis unit adapted to determine, from the coupled optical input signal, both a first skew pertaining to the optical transmitter unit and a second skew pertaining to the optical receiver unit.Type: ApplicationFiled: December 17, 2018Publication date: October 22, 2020Inventors: Stefano Calabrò, Lutz Rapp, Bernhard Spinnler
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Patent number: 10749727Abstract: Enclosed herewith is a method for protecting a link in an optical network configured for transmitting digital data employing a predetermined modulation format which comprises a number of symbols in a constellation diagram. A binary address is associated with each symbol. The modulation format allows for a constellation distortion, according to which the relative positions of constellation points in the constellation diagram are varied in a predetermined way by a predetermined degree.Type: GrantFiled: March 22, 2017Date of Patent: August 18, 2020Assignee: Xieon Networks S.à. r.l.Inventors: Danish Rafique, Stefano Calabro
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Publication number: 20200204307Abstract: A system for determining a channel margin of a data transmission channel (DTC) using error correction under real-world channel conditions is described. The system includes a monitoring unit, an operating state determining unit and a data processing unit. The monitoring unit monitors data transmission along the DTC and estimates a statistical distribution of errors (H) in the transmission of data. The operating state determining unit determines a current value of an operating state parameter for the DTC. The data processing unit determines a reference channel margin associated with said current value of the operating state parameter for a reference channel and the error correction scheme employed, provides a statistical distribution of errors (HR) associated with said reference channel for said current value of said operating state parameter, compute a deviation of H and HR, and computes a reduction of the reference channel margin.Type: ApplicationFiled: December 20, 2019Publication date: June 25, 2020Inventor: Stefano Calabró
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Patent number: 10680648Abstract: A decoding system for an iterative decoding of a parity check code comprises a first loop circuit adapted to store log-likelihood ratio values corresponding to a plurality of received data symbols in a memory unit; a second loop circuit adapted to compute a difference between a check-to-variable log-likelihood message at a second iteration step, and a check-to-variable log-likelihood message at a first iteration step, when the first iteration step precedes the second iteration step; and an adder unit adapted to update a log-likelihood ratio value stored on the first loop circuit by adding the difference computed in the second loop circuit; wherein the first loop circuit and the second loop circuit are synchronized such that the adder unit forwards the updated log-likelihood ratio value synchronously both to the first loop circuit and to the second loop circuit.Type: GrantFiled: October 24, 2018Date of Patent: June 9, 2020Assignee: ZIEON NETWORKS S.a.r.l.Inventors: Stefano Calabró, Peter Kainzmaier, Heinrich Von Kirchbauer
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Publication number: 20190199442Abstract: Disclosed herein is a dual parallel Mach-Zehnder-modulator (DPMZM) device comprising a DPMZM 10 having first and second inner MZMs arranged parallel to each other. The first inner MZM generates an in-phase component EI of an optical signal in response to a first driving voltage VI, and the second inner MZM generates a quadrature component EQ of said optical signal in response to a second driving voltage VQ. Further disclosed is a calculation unit 52 configured for receiving an in-phase component yI and a quadrature component yQ of a desired base-band signal, and for calculating pre-distorted first and second driving voltages VI, VQ. The calculation of the pre-distorted first and second driving voltages VI, VQ is based on a model of said DPMZM 10 accounting for I-Q cross-talk, and using an algorithm that determines said first and second driving voltages VI, VQ each as a function of both of said in-phase and quadrature components yI, yQ of said base-band signal.Type: ApplicationFiled: February 26, 2019Publication date: June 27, 2019Inventors: Alessandro BIANCIOTTO, Stefano CALABRÓ, Maxim KUSCHNEROV, Mahdi MEZGHANNI, Antonio NAPOLI, Bernhard SPINNLER
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Publication number: 20190173493Abstract: A decoding system for an iterative decoding of a parity check code comprises a first loop circuit adapted to store log-likelihood ratio values corresponding to a plurality of received data symbols in a memory unit; a second loop circuit adapted to compute a difference between a check-to-variable log-likelihood message at a second iteration step, and a check-to-variable log-likelihood message at a first iteration step, when the first iteration step precedes the second iteration step; and an adder unit adapted to update a log-likelihood ratio value stored on the first loop circuit by adding the difference computed in the second loop circuit; wherein the first loop circuit and the second loop circuit are synchronized such that the adder unit forwards the updated log-likelihood ratio value synchronously both to the first loop circuit and to the second loop circuit.Type: ApplicationFiled: October 24, 2018Publication date: June 6, 2019Inventors: Stefano CALABRÓ, Peter KAINZMAIER, Heinrich VON KIRCHBAUER
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Patent number: 10313049Abstract: The present invention relates to signal processing in an optical receiver, in particular to equalization performed in coherent optical receivers. A multiple-input multiple-output (MIMO) equalizer receives and equalizes a plurality of real value signals, for example four sampled electrical baseband tributaries (HI, HQ, VI, VQ). The outputs of the multiple-input multiple-output (MIMO) equalizer provide equalized real or imaginary components of complex signals. The complex signals including the real and imaginary components are then each and individually equalized to remove chromatic dispersion.Type: GrantFiled: June 29, 2016Date of Patent: June 4, 2019Assignee: Xieon Networks S.à.r.l.Inventors: Stefano Calabro, Bernhard Spinnler