Patents by Inventor Alexei N. Pilipetskii
Alexei N. Pilipetskii 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: 11956011Abstract: An apparatus for subsea environment sensing. In one aspect, the apparatus may include a repeater assembly, disposed in an optical repeater; and an environmental sensor assembly, disposed proximate to the repeater assembly, the environmental sensor assembly being coupled to receive power from the repeater assembly over an optical link.Type: GrantFiled: August 17, 2022Date of Patent: April 9, 2024Assignee: SubCom, LLCInventors: William W. Patterson, Georg Heinrich Mohs, Alexei N. Pilipetskii
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Patent number: 11923651Abstract: Techniques for improving gain equalization in C- and L-band (“C+L”) erbium-doped fiber amplifier (EDFAs) are provided. For example, the C- and L-band amplification sections of a C+L EDFA may be separated and configured in a parallel arrangement or a serial arrangement. For both the parallel and serial arrangements, the C- and L-band amplification sections may share a common gain flattening filter (GFF) or each amplification section may include and employ a separate GFF. Moreover, in some examples, an “interstage” L-band GFF may be located before or upstream of the L-band amplification section such that the L-band optical signal is gain-equalized or flattened prior to the L-band amplification section amplifying the L-band.Type: GrantFiled: May 29, 2020Date of Patent: March 5, 2024Assignee: SubCom, LLCInventors: Dmitri G. Foursa, Alexei N. Pilipetskii, Maxim A. Bolshtyansky, Gregory M. Wolter
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Patent number: 11914040Abstract: A line monitoring system may include a laser source to launch a plurality of pulsed probe signals; an optical transmission system, comprising a plurality of loopbacks, to receive the plurality of pulsed probe signals, and direct the plurality of pulsed probe signals through the plurality of loopbacks. The system may include a receiver to receive a plurality of return signals, derived from the plurality of pulsed probe signals from the transmission system, and a perturbance detection system, coupled to the receiver, to measure a phase difference between a polarization of a pair of return signals of the plurality of return signals. The pair of return signals may be received from a pair of loopbacks of the plurality of loopbacks, from a first loopback and a second return signal from a second loopback. The perturbance detection system may determine a location of a perturbation, based upon the phase difference.Type: GrantFiled: May 10, 2021Date of Patent: February 27, 2024Assignee: SubCom, LLCInventors: Maxim A. Bolshtyansky, Alexei N. Pilipetskii
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Publication number: 20240063901Abstract: An apparatus for subsea environment sensing. In one aspect, the apparatus may include a repeater assembly, disposed in an optical repeater; and an environmental sensor assembly, disposed proximate to the repeater assembly, the environmental sensor assembly being coupled to receive power from the repeater assembly over an optical link.Type: ApplicationFiled: August 17, 2022Publication date: February 22, 2024Applicant: SUBCOM, LLCInventors: William W. Patterson, Georg Heinrich Mohs, Alexei N. Pilipetskii
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Publication number: 20240027261Abstract: A distributed acoustic sensing system. The DAS system may include a distributed acoustic sensing (DAS) station, comprising: a DAS transmitter, arranged to launch an outbound DAS signal through an optical fiber, over at least one span; a DAS receiver, arranged to receive a backscatter Rayleigh signal, based upon the DAS signal; and at least one component, coupled to the DAS transmitter, the DAS receiver, or both, and arranged to increase a sensitivity for sensing of the DAS system.Type: ApplicationFiled: July 20, 2023Publication date: January 25, 2024Applicant: SUBCOM, LLCInventors: Jin-Xing CAI, Carl R. DAVIDSON, William W. PATTERSON, Alexei N. PILIPETSKII
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Publication number: 20240027259Abstract: A sensing system may include a distributed acoustic sensing (DAS) station to launch a DAS signal as an outbound DAS signal, as well as a plurality of DAS loopback assemblies, arranged along a plurality of spans. The plurality of DAS loopback assemblies may be arranged to separately process the outbound DAS signal, and return to the DAS station, the outbound DAS signal, as a return DAS signal that comprises a backscattered Rayleigh signal. As such, a given DAS loopback assembly of the plurality of DAS loopback assemblies may include an Erbium-Doped Fiber Amplifier (EDFA) that is arranged to compensate the loss from Rayleigh scattering of the DAS signal, and a filter device having an optical filtering function that is arranged to selectively send back just a sensing wavelength of the DAS signal.Type: ApplicationFiled: July 20, 2023Publication date: January 25, 2024Applicant: SUBCOM, LLCInventors: Jin-Xing CAI, Carl R. DAVIDSON, William W. PATTERSON, Alexei N. PILIPETSKII
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Publication number: 20240027260Abstract: A system may include a distributed acoustic sensing (DAS) station, comprising a DAS transmitter to launch an outbound DAS signal in a first direction, over at least one span of an optical communications link. The system may further include a DAS receiver to receive a backscattered Rayleigh signal, based upon the outbound DAS signal, wherein the DAS signal is transmitted at least in part over a D? fiber.Type: ApplicationFiled: July 20, 2023Publication date: January 25, 2024Applicant: SUBCOM, LLCInventors: Jin-Xing CAI, Carl R. DAVIDSON, William W. PATTERSON, Alexei N. PILIPETSKII
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Publication number: 20240031051Abstract: Disclosed are techniques and amplifier stages that include wave division multiplexers, semiconductor optical amplifiers and wave division demultiplexers that amplify optical signals. An input optical signal having a first bandwidth is partitioned into a plurality of subband optical signals by thin film filters tuned to a selected bandwidth that is less than the first bandwidth. Each of the plurality of subband optical signals has a bandwidth that is a portion of the first bandwidth. Each subband optical signal is input into a semiconductor optical amplifier that is tuned to the respective portion of the first bandwidth that corresponds to the subband optical signal. The combination of the partitioned input optical signal and tuned semiconductor optical amplifiers provides improved optical signal transmission performance by reducing polarization dependent gain.Type: ApplicationFiled: October 3, 2023Publication date: January 25, 2024Applicant: SUBCOM, LLCInventors: Dmitri G. FOURSA, Alexei N. PILIPETSKII
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Patent number: 11863296Abstract: Disclosed are techniques and amplifier stages that include wave division multiplexers, semiconductor optical amplifiers and wave division demultiplexers that amplify optical signals. An input optical signal having a first bandwidth is partitioned into a plurality of subband optical signals by thin film filters tuned to a selected bandwidth that is less than the first bandwidth. Each of the plurality of subband optical signals has a bandwidth that is a portion of the first bandwidth. Each subband optical signal is input into a semiconductor optical amplifier that is tuned to the respective portion of the first bandwidth that corresponds to the subband optical signal. The combination of the partitioned input optical signal and tuned semiconductor optical amplifiers provides improved optical signal transmission performance by reducing polarization dependent gain.Type: GrantFiled: June 29, 2022Date of Patent: January 2, 2024Assignee: SUBCOM, LLCInventors: Dmitri G. Foursa, Alexei N. Pilipetskii
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Publication number: 20230055670Abstract: Disclosed are techniques and amplifier stages that include wave division multiplexers, semiconductor optical amplifiers and wave division demultiplexers that amplify optical signals. An input optical signal having a first bandwidth is partitioned into a plurality of subband optical signals by thin film filters tuned to a selected bandwidth that is less than the first bandwidth. Each of the plurality of subband optical signals has a bandwidth that is a portion of the first bandwidth. Each subband optical signal is input into a semiconductor optical amplifier that is tuned to the respective portion of the first bandwidth that corresponds to the subband optical signal. The combination of the partitioned input optical signal and tuned semiconductor optical amplifiers provides improved optical signal transmission performance by reducing polarization dependent gain.Type: ApplicationFiled: June 29, 2022Publication date: February 23, 2023Applicant: SUBCOM, LLCInventors: Dmitri G. Foursa, Alexei N. Pilipetskii
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Publication number: 20220397448Abstract: Apparatus, systems, and techniques for extending distributed acoustic sensing (DAS) range in undersea optical cables over multiple spans, as well as providing span-specific DAS information, are provided.Type: ApplicationFiled: May 20, 2022Publication date: December 15, 2022Applicant: SUBCOM, LLCInventors: Alexei N. Pilipetskii, Maxim A. Bolshtyansky, Dmitri G. Foursa, Georg Heinrich Mohs, Jin-Xing Cai
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Publication number: 20220357448Abstract: A line monitoring system may include a laser source to launch a plurality of pulsed probe signals; an optical transmission system, comprising a plurality of loopbacks, to receive the plurality of pulsed probe signals, and direct the plurality of pulsed probe signals through the plurality of loopbacks. The system may include a receiver to receive a plurality of return signals, derived from the plurality of pulsed probe signals from the transmission system, and a perturbance detection system, coupled to the receiver, to measure a phase difference between a polarization of a pair of return signals of the plurality of return signals. The pair of return signals may be received from a pair of loopbacks of the plurality of loopbacks, from a first loopback and a second return signal from a second loopback. The perturbance detection system may determine a location of a perturbation, based upon the phase difference.Type: ApplicationFiled: May 10, 2021Publication date: November 10, 2022Applicant: SUBCOM, LLCInventors: Maxim A. Bolshtyansky, Alexei N. Pilipetskii
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Publication number: 20220205866Abstract: Techniques for extending distributed acoustic sensing (DAS) range in undersea optical cables are provided. For example, DAS range can be extended by transmitting and amplifying a DAS signal along multiple spans of a first optical fiber, routing or bypassing the DAS signal from the first optical fiber to a second optical fiber different from the first fiber via a high-loss loopback architecture, and returning and amplifying the DAS signal along the same multiple spans back to a DAS device. The DAS device may then receive and process the DAS signal to detect any changes in the DAS environment. The loopback configuration may be based on different types of loopback architecture.Type: ApplicationFiled: December 28, 2020Publication date: June 30, 2022Applicant: SUBCOM, LLCInventors: Georg Heinrich Mohs, Alexei N. Pilipetskii
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Publication number: 20210376550Abstract: Techniques for improving gain equalization in C- and L-band (“C+L”) erbium-doped fiber amplifier (EDFAs) are provided. For example, the C- and L-band amplification sections of a C+L EDFA may be separated and configured in a parallel arrangement or a serial arrangement. For both the parallel and serial arrangements, the C- and L-band amplification sections may share a common gain flattening filter (GFF) or each amplification section may include and employ a separate GFF. Moreover, in some examples, an “interstage” L-band GFF may be located before or upstream of the L-band amplification section such that the L-band optical signal is gain-equalized or flattened prior to the L-band amplification section amplifying the L-band.Type: ApplicationFiled: May 29, 2020Publication date: December 2, 2021Applicant: SUBCOM, LLCInventors: Dimitri G. Foursa, Alexei N. Pilipetskii, Maxim A. Bolshtyansky, Gregory M. Wolter
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Patent number: 10135221Abstract: Optical amplifier assembly for spatial division multiplexing (SDM) optical communication systems. Each optical amplifier assembly includes a single pump assembly configured for causing amplification of signals traveling on separate fiber paths in different directions. Each fiber path includes a plurality of spatial dimensions. The single pump assembly includes a plurality of pump sources to provide redundancy and the optical amplifier assembly further includes splitters for splitting outputs of the pump sources to amplifiers coupled to the different spatial dimensions. Different modulation formats may be used on the different spatial dimensions with different pump power being provided to each of the modulation formats. Amplifiers with complementary outputs may be coupled to average out gain deviations.Type: GrantFiled: September 6, 2016Date of Patent: November 20, 2018Assignee: TYCO ELECTRONICS SUBSEA COMMUNICATIONS LLCInventors: Yu Sun, Oleg Sinkin, Maxim A. Bolshtyansky, Alexei N. Pilipetskii, Dmitri Foursa
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Publication number: 20180069370Abstract: Optical amplifier assembly for spatial division multiplexing (SDM) optical communication systems. Each optical amplifier assembly includes a single pump assembly configured for causing amplification of signals traveling on separate fiber paths in different directions. Each fiber path includes a plurality of spatial dimensions. The single pump assembly includes a plurality of pump sources to provide redundancy and the optical amplifier assembly further includes splitters for splitting outputs of the pump sources to amplifiers coupled to the different spatial dimensions. Different modulation formats may be used on the different spatial dimensions with different pump power being provided to each of the modulation formats. Amplifiers with complementary outputs may be coupled to average out gain deviations.Type: ApplicationFiled: September 6, 2016Publication date: March 8, 2018Inventors: Yu Sun, Oleg Sinkin, Maxim A. Bolshtyansky, Alexei N. Pilipetskii, Dmitri Foursa
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Patent number: 9806840Abstract: A system and method for transmitting a wavelength division multiplexed (WDM) signal on an optical transmission path. The system includes at least one first modulation format transmitter configured to generate an associated first modulation format signal on an associated signal wavelength using a first modulation format having a first spectral efficiency, and at least one second modulation format transmitter configured to generate an associated second modulation format signal on an associated signal wavelength using a second modulation format having a second spectral efficiency higher than the first spectral efficiency. The second modulation format signals having an optical power set nominally higher than the optical power of the first modulation format signals. The first and second modulation format signals are combined into an aggregate output signal on the optical transmission path.Type: GrantFiled: May 13, 2016Date of Patent: October 31, 2017Assignee: TYCO ELECTRONICS SUBSEA COMMUNICATIONS LLCInventors: Hongsheng Wang, Dmitriy Kovsh, Alexei N. Pilipetskii
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Patent number: 9634803Abstract: An optical subcarrier multiplex system. An input data signal is jointly coded with at least one forward error correction (FEC) code before symbol mapping and before subcarrier modulation. Joint FEC coding mitigates non-uniform subcarrier performance.Type: GrantFiled: February 16, 2016Date of Patent: April 25, 2017Assignee: TYCO ELECTRONICS SUBSEA COMMUNICATIONS LLCInventors: Jin-Xing Cai, Matthew V. Mazurczyk, Hussam G. Batshon, Dmitri Foursa, Alexei N. Pilipetskii
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Publication number: 20160337068Abstract: A system and method for transmitting a wavelength division multiplexed (WDM) signal on an optical transmission path. The system includes at least one first modulation format transmitter configured to generate an associated first modulation format signal on an associated signal wavelength using a first modulation format having a first spectral efficiency, and at least one second modulation format transmitter configured to generate an associated second modulation format signal on an associated signal wavelength using a second modulation format having a second spectral efficiency higher than the first spectral efficiency. The second modulation format signals having an optical power set nominally higher than the optical power of the first modulation format signals. The first and second modulation format signals are combined into an aggregate output signal on the optical transmission path.Type: ApplicationFiled: May 13, 2016Publication date: November 17, 2016Inventors: Hongsheng Wang, Dmitriy Kovsh, Alexei N. Pilipetskii
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Patent number: 9450678Abstract: A system and method including a transmitter including digital signal processor for providing a shaped data output in response to an input data stream. The shaped data output is coupled to a modulator that modulates an optical signal in response to the shaped data output to provide a non-rectangular shaped output having channel spacing greater than Nyquist channel spacing. Providing a shaped output consistent the present disclosure mitigates the effects of non-linear impairments in an optical transmission system.Type: GrantFiled: October 1, 2014Date of Patent: September 20, 2016Assignee: Tyco Electronics Subsea Communications LLCInventors: Matthew V. Mazurczyk, Oleg Sinkin, Dmitri Foursa, Alexei N. Pilipetskii