Patents by Inventor Zohaib Mahmood

Zohaib Mahmood 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).

  • Publication number: 20240322868
    Abstract: According to an aspect of an embodiment, a base station configured for beamforming estimation in a massive multiple input multiple output (mMIMO) radio access network (RAN) (mMIMO-RAN) may comprise a processing device and a transceiver. The processing device may be configured to compute, at the base station, a precoder based on jointly maximizing the signal with respect to noise and minimizing an interference with respect to the noise using an approximate decoder. The processing device may be configured to compute, at the base station, the precoder based on a power constraint. The processing device may be configured to generate, at the base station, the precoder for precoding a downlink signal for transmission from the base station to a user equipment (UE). The transceiver may be configured to transmit the DL signal to the UE.
    Type: Application
    Filed: February 27, 2024
    Publication date: September 26, 2024
    Applicant: MAXLINEAR, INC.
    Inventors: Zohaib Mahmood, Hajir Roozbehani, Alexandre Megretski, Yan Li
  • Publication number: 20240291526
    Abstract: According to an example, a massive multiple-input multiple-output (mMIMO) system operable for beamforming actuation may comprise an open radio access network radio unit (O-RU) having a processing device operable to: compute one or more of a predictive channel estimate, a beamforming estimate, or an antenna calibration; compute, based on an objective function having one or more of the predictive channel estimate, the beamforming estimate, or the antenna calibration as inputs, a power level for a data stream associated with a transmitting antenna path, wherein the power level for the data stream is selected to facilitate an equal-power distribution across a plurality of transmitting antenna paths; and set the power level for the data stream associated with the transmitting antenna path.
    Type: Application
    Filed: February 27, 2024
    Publication date: August 29, 2024
    Applicant: MAXLINEAR, INC.
    Inventors: Zohaib Mahmood, Hajir Roozbehani, Alexandre Megretski
  • Patent number: 11863210
    Abstract: Disclosed are systems, devices, modules, methods, and other implementations, including a method for digital predistortion that includes receiving, by a digital predistorter, a first signal that depends on amplitude variations based on an input signal, u, with the variations of the first signal corresponding to time variations in non-linear characteristics of a transmit chain that includes a power amplifier. The method further includes receiving, by the digital predistorter, the input signal u, generating, by the digital predistorter, based at least in part on signals comprising the input signal u and the first signal, a digitally predistorted signal v to mitigate the non-linear behavior of the transmit chain, and providing the predistorted signal v to the transmit chain.
    Type: Grant
    Filed: November 25, 2020
    Date of Patent: January 2, 2024
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Zohaib Mahmood, Yan Li, Kevin Chuang, Helen H. Kim, Yu-Chen Wu
  • Publication number: 20230318648
    Abstract: A system includes a receiver (RX) configured to receive an RX output signal in an RX band, where the RX output signal has a first passive intermodulation (PIM) source in the RX band and a second PIM source in the RX band; and a processing device configured to: receive the RX output signal from the receiver on an RX path, receive a crest factor reduction (CFR) output signal from a CFR on a transmit (TX) path, identify the first PIM source and the second PIM source based on the RX output signal and the CFR output signal, calibrate the CFR output signal based on the first and second PIM sources in the RX output signal to generate a non-linear actuation (NA) input signal, and generate an intermodulation distortion signal by using an NA function on the NA input signal.
    Type: Application
    Filed: April 3, 2023
    Publication date: October 5, 2023
    Inventors: Zohaib Mahmood, Subramanian Anantharaman Chandrasekarapuram, Srivathsa Acharya, Gopala Krishna Murthy Vemula, Devika Sunilkumar
  • Publication number: 20230318656
    Abstract: According to an aspect of an embodiment, a base station configured for enhanced receiver sensitivity may comprise a processing device and a receiver. The receiver (Rx) may be configured to receive an Rx output signal in an Rx band. The processing device may be configured to receive the Rx output signal from the receiver on an Rx path and receive a crest factor reduction (CFR) output signal from a CFR on a transmit (Tx) path. The processing device may be configured to calibrate the CFR output signal based on the Rx output signal to generate a non-linear actuation (NA) input signal and generate an intermodulation distortion signal by using an NA function on the NA input signal.
    Type: Application
    Filed: April 3, 2023
    Publication date: October 5, 2023
    Inventors: Zohaib Mahmood, Subramanian Anantharaman Chandrasekarapuram, Srivathsa Acharya, Gopala Krishna Murthy Vemula, Devika Sunilkumar
  • Publication number: 20230276368
    Abstract: According to an aspect of an embodiment, a base station configured for beamforming estimation in a massive multiple input multiple output (mMIMO) radio access network (RAN) (mMIMO-RAN) may comprise a processing device and a transceiver. The processing device may be configured to obtain a channel estimate for a user equipment (UE). The processing device may be configured to compute a first power level adjustment for a downlink (DL) signal and a second power level adjustment for the DL signal. The second power level adjustment may be based on a power constraint. The transceiver may be configured to transmit the DL signal to the UE.
    Type: Application
    Filed: February 27, 2023
    Publication date: August 31, 2023
    Inventors: Zohaib Mahmood, Hajir Roozbehani, Alexandre Megretski, Yan Li
  • Patent number: 11664836
    Abstract: A received signal is enhanced by removing distortion components of a concurrently transmitted signal. A received signal is acquired in a receive frequency band concurrently with transmission of a transmit signal in a transmit frequency band. The received signal includes an intermodulation distortion component of the transmit signal. A representation of the transmit signal is processed using a non-linear predictor to output a distortion signal representing predicted distortion components in the received signal. The received signal is enhanced using the distortion signal by removing the predicted distortion components from the received signal corresponding to the distortion signal.
    Type: Grant
    Filed: May 17, 2018
    Date of Patent: May 30, 2023
    Assignee: NanoSemi, Inc.
    Inventors: Yanyu Huang, Zohaib Mahmood, Yan Li, Alexandre Megretski, Helen H. Kim
  • Patent number: 11303251
    Abstract: Disclosed are methods, systems, devices, apparatus, media, and other implementations, including a method for digital predistortion for a power amplifier system. The method includes determining one or more system characteristics for the power amplifier system comprising at least a power amplifier that produces output with non-linear distortions, with the one or more system characteristics corresponding to an estimate for a complex load metric for the power amplifier system coupled to a load. The method further includes determining, based on the one or more system characteristics corresponding to the estimate for the complex load metric, digital predistortion (DPD) coefficients to compensate for the nonlinear behavior of the power amplifier system.
    Type: Grant
    Filed: October 1, 2018
    Date of Patent: April 12, 2022
    Assignee: NanoSemi, Inc.
    Inventors: Yu-Chen Wu, Yanyu Huang, Zohaib Mahmood, Helen H. Kim
  • Patent number: 11258639
    Abstract: Disclosed are methods, systems, devices, apparatus, media, design structures, and other implementations, including a method is that includes receiving, at a receiver device, a signal transmitted from a remote wireless device, with the signal including a training sequence, and updating, based on the training sequence, one or more adjustable characteristics for a non-linear equalizer of the receiver device, with the one or more adjustable characteristics controlling signal non-linear compensation processing to correct non-linear distortions affecting communication signals transmitted from the remote wireless device. In some embodiments, the method may further include updating, based on the training sequence, additional one or more adjustable characteristics for a linear equalizer of the receiver device, with the additional one or more adjustable characteristics controlling signal linear compensation processing to correct linear distortions affecting the communication signals.
    Type: Grant
    Filed: November 9, 2018
    Date of Patent: February 22, 2022
    Assignee: NanoSemi, Inc.
    Inventors: Zohaib Mahmood, Alexandre Megretski, Helen H. Kim
  • Patent number: 11171614
    Abstract: A pre-distorter that both accurately compensates for the non-linearities of a radio frequency transmit chain, and that imposes as few computation requirements in terms of arithmetic operations, uses a diverse set of real-valued signals that are derived from separate band signals that make up the input signal. The derived real signals are passed through configurable non-linear transformations, which may be adapted during operation, and which may be efficiently implemented using lookup tables. The outputs of the non-linear transformations serve as gain terms for a set of complex signals, which are functions of the input, and which are summed to compute the pre-distorted signal. A small set of the complex signals and derived real signals may be selected for a particular system to match the classes of non-linearities exhibited by the system, thereby providing further computational savings, and reducing complexity of adapting the pre-distortion through adapting of the non-linear transformations.
    Type: Grant
    Filed: May 4, 2020
    Date of Patent: November 9, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Kevin Chuang, Yan Li, Zohaib Mahmood, Helen H. Kim
  • Patent number: 11057004
    Abstract: Disclosed are methods, systems, devices, apparatus, media, design structures, and other implementations, including a method for digital predistortion of multiband signals that includes receiving a plurality of input signals respectively associated with multiple radio frequency (RF) bands, with the plurality of input signals occupying an input frequency span corresponding to a difference between a maximum frequency in a highest of the multiple RF bands and a minimum frequency in a lowest of the multiple RF bands. The method further includes frequency shifting at least one signal from the plurality of input signals to produce condensed shifted signals, each corresponding to a respective one of the plurality of input signals, occupying a condensed frequency span smaller than the input frequency span, and processing the condensed shifted signals, including applying digital predistortion to the condensed shifted signals.
    Type: Grant
    Filed: February 23, 2018
    Date of Patent: July 6, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Helen H. Kim, Alexandre Megretski, Yan Li, Kevin Chuang, Zohaib Mahmood, Yanyu Huang
  • Patent number: 11038731
    Abstract: Disclosed are crest factor reduction (CFR) implementations that include a method comprising getting communication system data representative of characteristics of a communication system comprising one or more radio transmission bands, and optimizing, based at least in part on the input communication system data, a plurality of updateable parameters that determine respective pulse shapes for one or more pulses as well as other certain algorithm execution parameters for use in the CFR system. Optimizing the plurality of updateable parameters includes iteratively updating the plurality of updateable parameters based on iterative evaluation of a plurality of performance parameters. The method further includes providing the optimized plurality of updateable parameters to configure the crest reduction system for use in processing signals for radio transmission using a pulse subtraction approach applied to one or more signals communicated through the communication system.
    Type: Grant
    Filed: June 8, 2018
    Date of Patent: June 15, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Dmitri Fomin, Alexandre Megretski, Kevin Chuang, Zohaib Mahmood, Yan Li, Helen H. Kim, George Stone
  • Publication number: 20210152201
    Abstract: Disclosed are systems, devices, modules, methods, and other implementations, including a method for digital predistortion that includes receiving, by a digital predistorter, a first signal that depends on amplitude variations based on an input signal, u, with the variations of the first signal corresponding to time variations in non-linear characteristics of a transmit chain that includes a power amplifier. The method further includes receiving, by the digital predistorter, the input signal u, generating, by the digital predistorter, based at least in part on signals comprising the input signal u and the first signal, a digitally predistorted signal v to mitigate the non-linear behavior of the transmit chain, and providing the predistorted signal v to the transmit chain.
    Type: Application
    Filed: November 25, 2020
    Publication date: May 20, 2021
    Inventors: Alexandre Megretski, Zohaib Mahmood, Yan Li, Kevin Chuang, Helen H. Kim, Yu-Chen Wu
  • Patent number: 10992326
    Abstract: Disclosed are implementations, including a method comprising selecting a location of a selection buffer (that stores observed output samples produced by a signal chain) according to a pseudo-random buffer selection process, and accessing at least one observed output sample generated in response to corresponding input samples (to the system) and/or intermediary samples (outputs of a digital compensator) produced by a compensator of the system. The method further includes computing an approximation of a sub-gradient value computed according to a stochastic gradient process to derive a sub-gradient of an error function representing a relationship between the observed output sample, and the input and/or intermediary samples, computing updated values for the compensator coefficients based on current values of the coefficients and the approximation of the sub-gradient value, and replacing, at a time instance determined independently of the buffer selection process, content of part or all of the selection buffer.
    Type: Grant
    Filed: May 19, 2020
    Date of Patent: April 27, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Yan Li, Zohaib Mahmood, Kevin Chuang, Helen H. Kim
  • Patent number: 10972326
    Abstract: Disclosed are methods, systems, devices, apparatus, media, design structures, and other implementations, including a method that includes receiving a signal for radio transmission, and configuring crest factor reduction (CFR) processing characteristics, at a wireless device, to apply to the received signal to modify one or more portions of the signal based on an asymmetrical spectral mask, representative of an asymmetric frequency envelope limiting allowed magnitudes for frequency components bounded by the asymmetrical spectral mask, with the asymmetrical spectral mask being defined based on spectral characteristics requirements specified by multiple regulatory radio frequency (RF) power requirements at frequencies affecting a frequency range of the asymmetrical spectral mask.
    Type: Grant
    Filed: March 5, 2020
    Date of Patent: April 6, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Zohaib Mahmood, Helen H. Kim, Andrew Feldman
  • Patent number: 10951449
    Abstract: Disclosed are methods, systems, devices, apparatus, media, design structures, and other implementations, including a method that includes receiving a signal for radio transmission, and adjusting crest factor reduction (CFR) processing characteristics applied to the received signal to modify one or more portions of the signal according to a pre-determined spectral mask representative of a frequency envelope limiting allowed magnitudes for frequency components bounded by the spectral mask. Adjusting the CFR processing characteristics includes adjusting the CFR processing characteristics according to one or more optimization criteria for output signals generated based on the adjusted CFR processing characteristics, and subject to a constraint that the output signals generated based on the adjusted CFR processing characteristics are bound by the pre-determined spectral mask.
    Type: Grant
    Filed: March 5, 2020
    Date of Patent: March 16, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Zohaib Mahmood, Helen H. Kim
  • Publication number: 20210075649
    Abstract: Disclosed are methods, systems, devices, apparatus, media, design structures, and other implementations, including a method is that includes receiving, at a receiver device, a signal transmitted from a remote wireless device, with the signal including a training sequence, and updating, based on the training sequence, one or more adjustable characteristics for a non-linear equalizer of the receiver device, with the one or more adjustable characteristics controlling signal non-linear compensation processing to correct non-linear distortions affecting communication signals transmitted from the remote wireless device. In some embodiments, the method may further include updating, based on the training sequence, additional one or more adjustable characteristics for a linear equalizer of the receiver device, with the additional one or more adjustable characteristics controlling signal linear compensation processing to correct linear distortions affecting the communication signals.
    Type: Application
    Filed: November 9, 2018
    Publication date: March 11, 2021
    Inventors: Zohaib Mahmood, Alexandre Megretski, Helen H. Kim
  • Patent number: 10931318
    Abstract: Disclosed are implementations that include a method comprising applying at least one input signal to a power amplification system, that includes a transmit chain with a power amplifier (PA) producing output with non-linear distortions, to produce at least one output signal, and measuring at least one observed signal of the output signal using an observation receiver coupled to an output of the transmit chain, the observation receiver having a receive bandwidth smaller than a transmit chain bandwidth of the transmit chain. Measuring the at least one observed signal includes measuring multiple frequency segments of output signal. The method further includes determining one or more sets of digital predistortion coefficients based on the measured multiple frequency segments of the at least one output signal, with each of the sets of digital predistortion coefficients being associated with a respective set of operating conditions of the power amplification system.
    Type: Grant
    Filed: December 6, 2019
    Date of Patent: February 23, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Zohaib Mahmood, Alexandre Megretski, Kevin Chuang, Yan Li, Helen H. Kim
  • Patent number: 10931320
    Abstract: Disclosed are digital predistortion implementations, including a method that includes obtaining a first set of digital predistortion (DPD) non-linear functions for controlling operation of a digital predistorter of a wireless device operating on a received at least one input signal directed to a power amplification system comprising a transmit chain with at least one power amplifier that produces output with non-linear distortions. The method further includes determining an expanded set of DPD non-linear functions comprising the first set of DPD non-linear functions and additional one or more sets of DPD non-linear functions derived based on the first set of DPD non-linear functions and on operating condition parameters associated with operation of the wireless device, and configuring the digital predistorter with DPD coefficients determined for the expanded set of the DPD non-linear functions based on observed samples of the transmit chain responsive to the at least one input signal.
    Type: Grant
    Filed: August 28, 2020
    Date of Patent: February 23, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Kevin Chuang, Yan Li, Zohaib Mahmood, Helen H. Kim
  • Patent number: 10931238
    Abstract: Disclosed are systems, devices, modules, methods, and other implementations, including a method for digital predistortion that includes receiving, by a digital predistorter, a first signal that depends on amplitude variations based on an input signal, u, with the variations of the first signal corresponding to time variations in non-linear characteristics of a transmit chain that includes a power amplifier. The method further includes receiving, by the digital predistorter, the input signal u, generating, by the digital predistorter, based at least in part on signals comprising the input signal u and the first signal, a digitally predistorted signal v to mitigate the non-linear behavior of the transmit chain, and providing the predistorted signal v to the transmit chain.
    Type: Grant
    Filed: April 17, 2019
    Date of Patent: February 23, 2021
    Assignee: NanoSemi, Inc.
    Inventors: Alexandre Megretski, Zohaib Mahmood, Yan Li, Kevin Chuang, Helen H. Kim, Yu-Chen Wu