Patents by Inventor Paul Meissner
Paul Meissner 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: 20220026521Abstract: In accordance with an embodiment, a method of operating a radar system includes activating a transmitter to transmit a radar signal during a first time period, receiving a reflection of the radar signal from a radar antenna, downconverting the reflected radar signal, and digitally processing the downconverted reflected radar signal within a first frequency bandwidth using a first signal path. The method also includes deactivating the transmitter during a second time period, receiving a second signal from the radar antenna during the second time period, downconverting the second signal, measuring a power of the downconverted second signal within a second frequency bandwidth using a second signal path different from the first signal path, and determining an interference metric based on measuring the power.Type: ApplicationFiled: October 8, 2021Publication date: January 27, 2022Inventors: Alexander Melzer, Paul Meissner, Mate Andras Toth
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Patent number: 11215692Abstract: A method for use in a radar device is described herein. In accordance some implementations, the method includes generating an RF oscillator signal which includes frequency-modulated chirps, amplitude-modulating the RF oscillator signal by a modulation signal, and transmitting the amplitude-modulated RF oscillator signal via at least one antenna. In some implementations, the method may further include receiving an RF signal that includes frequency-modulated chirp echo signals from a target object, down-converting the received RF signal into a base band using the RF oscillator signal for providing a base band signal, and processing the base band signal to detect information included in the modulation signal.Type: GrantFiled: March 18, 2019Date of Patent: January 4, 2022Assignee: Infineon Technologies AGInventors: Grigory Itkin, Paul Meissner, Alexander Melzer
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Patent number: 11209523Abstract: A method for a radar apparatus is described. According to one example implementation, the method involves receiving a multiplicity of chirp echoes from transmitted radar signals and generating a digital signal based on the multiplicity of chirp echoes. In this case, each chirp echo has an associated subsequence of the digital signal. The method further involves performing a filtering in the time domain for one or more subsequences. The filtering in this case involves the decomposition of the subsequence into a plurality of components (referred to as principal components), the selection of a subset of components from the plurality of components and the reconstruction of a modified subsequence based on the selected subset of the component.Type: GrantFiled: March 29, 2019Date of Patent: December 28, 2021Assignee: Infineon Technologies AGInventors: Paul Meissner, Alexander Melzer
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Patent number: 11175376Abstract: In accordance with an embodiment, a method of operating a radar system includes activating a transmitter to transmit a radar signal during a first time period, receiving a reflection of the radar signal from a radar antenna, downconverting the reflected radar signal, and digitally processing the downconverted reflected radar signal within a first frequency bandwidth using a first signal path. The method also includes deactivating the transmitter during a second time period, receiving a second signal from the radar antenna during the second time period, downconverting the second signal, measuring a power of the downconverted second signal within a second frequency bandwidth using a second signal path different from the first signal path, and determining an interference metric based on measuring the power.Type: GrantFiled: September 18, 2018Date of Patent: November 16, 2021Assignee: INFINEON TECHNOLOGIES AGInventors: Alexander Melzer, Paul Meissner, Mate Andras Toth
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Publication number: 20210209453Abstract: A radar device may include a radar transmitter to output a radio frequency (RF) transmission signal including a plurality of frequency-modulated chirps. The radar device may include a radar receiver to receive an RF radar signal, and generate, based on the RF radar signal, a dataset including a set of digital values, the dataset being associated with a chirp or a sequence of successive chirps. The radar device may include a neural network to filter the dataset to reduce an interfering signal included in the dataset, the neural network being a convolutional neural network. At least one layer of the neural network may be a complex-valued neural network layer includes complex-valued weighting factor, where the complex-valued neural network layer is configured to perform one or more operations according to a complex-valued computation.Type: ApplicationFiled: December 14, 2020Publication date: July 8, 2021Inventors: Paul MEISSNER, Franz PERNKOPF, Johanna ROCK, Wolfgang ROTH, Mate Andras TOTH, Alexander FUCHS
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Publication number: 20210190905Abstract: A method for the use in a radar system comprises: receiving an RF radar signal; down-converting the received RF radar signal into a base band using a frequency-modulated local oscillator signal including a scanning chirp having a higher bandwidth than a regular chirp bandwidth; generating a digital base band signal based on the down-converted RF radar signal, the digital base band signal including a sequence of samples associated with the scanning chirp; identifying, in the sequence of samples, impaired samples, which are affected by interference; and selecting—based on the position of the impaired samples within the sequence of samples—a sub-band, which has the regular chirp bandwidth, for transmitting chirps of chirp frame used for measurement data acquisition.Type: ApplicationFiled: December 8, 2020Publication date: June 24, 2021Inventors: Andre ROGER, Markus BICHL, Maximilian ESCHBAUMER, Farhan Bin KHALID, Paul MEISSNER
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Patent number: 11016171Abstract: A radar method is described herein. In accordance with one embodiment the method includes receiving a plurality of chirp echoes of transmitted radar signals, generating a digital signal based on the plurality of chirp echoes, and calculating a range map based on the digital signal. The range map includes a plurality of values, each value is represented by an amplitude value and a phase value, and each value is associated with one frequency bin of a set of frequency bins and one chirp echo of the plurality of chirp echoes. The method further includes identifying chirp echoes which are affected by interference and determining, for one or more selected frequency bins, corrected phase values based on phase values that are associated with chirp echoes not identified as affected by interference.Type: GrantFiled: February 4, 2019Date of Patent: May 25, 2021Inventors: Alexander Melzer, Mario Huemer, Paul Meissner, Fisnik Sulejmani, Matthias Wagner
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Patent number: 10969463Abstract: A method for processing radar data is described herein. In accordance with one embodiment, the method includes the calculation of a Range Map based on a digital radar signal received from a radar receiver. The Range Map includes spectral values for a plurality of discrete frequency values and a plurality of discrete time values, wherein each spectral value is represented by at least a first parameter. Further, the method includes applying an operation to at least the first parameters in the Range Map for at least one discrete frequency value to smooth or analyze at least a portion of the Range Map.Type: GrantFiled: October 11, 2018Date of Patent: April 6, 2021Assignee: Infineon Technologies AGInventors: Alexander Melzer, Mario Huemer, Paul Meissner, Alexander Onic, Rainer Stuhlberger, Fisnik Sulejmani, Matthias Wagner
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Publication number: 20200379081Abstract: The description below relates to a method for a radar system that can be used to detect perturbations in the received radar signal. According to an example implementation, the method comprises providing a digital radar signal using a radar receiver, wherein the digital radar signal comprises a multiplicity of segments; calculating an envelope signal that represents the envelope of a segment of the digital radar signal; and ascertaining a time of the onset of an interference signal contained in the considered segment of the digital radar signal by using at least one statistical parameter of the envelope signal.Type: ApplicationFiled: May 12, 2020Publication date: December 3, 2020Inventors: Paul MEISSNER, Mate Andras TOTH
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Publication number: 20200355595Abstract: The invention relates to a method for producing seed-like solid particles from at least one, but typically two starting substances, wherein the produced particles are optically detected by means of an optical detection system, wherein data of the produced particles detected optically by the optical detection system is provided, and at least one, but typically two parameters of the produced particles are determined from the optically detected data of the produced particles, wherein at least one, but typically two optically determined parameters automatically synergetically influence the production process of further particles on the basis of the optically detected data of the produced particles. The invention further relates to a device for carrying out the method and a computer program for carrying out the method.Type: ApplicationFiled: November 2, 2018Publication date: November 12, 2020Applicant: K+S AKTIENGESELLSCHAFTInventors: Paul MEISSNER, David SCHERR, Maik KLOTZBACH, Guido BAUCKE
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Publication number: 20200341134Abstract: The present disclosure relates to a radar device including a first radar-IC for processing first receive signals from first antennas of an antenna array, wherein the first radar-IC is configured to determine a first range-Doppler map based on the first receive signals, and to determine a first subregion of the first range-Doppler map based on criteria of interest. The radar device also includes at least a second radar-IC for processing second receive signals from second antennas of the antenna array, wherein the second radar-IC is configured to determine a second range-Doppler map based on the second receive signals, and to determine a second subregion of the second range-Doppler map based on the criteria of interest. A data interface is configured to forward information indicative of the first and/or the second subregions to a common processor for further processing.Type: ApplicationFiled: April 22, 2020Publication date: October 29, 2020Applicant: Infineon Technologies AGInventors: Andre ROGER, Farhan Bin KHALID, Paul MEISSNER, Dian Tresna NUGRAHA, Romain YGNACE
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Publication number: 20200341109Abstract: A radar device may include a radar receiver to receive a radio frequency (RF) radar signal and generate a digital signal based on the RF radar signal. The digital signal may comprise a plurality of signal segments. The radar device may include a neural network comprising a plurality of layers to process the plurality of signal segments. Each layer of the plurality of layers may have one or more neurons. The plurality of layers may process the plurality of signal segments using weighting factors having values selected from a predetermined set of discrete values. At least one neuron in an output layer of the plurality of layers may provide an output value that indicates whether a respective signal segment or a sample, associated with the at least one neuron, is overlaid with an interfering signal.Type: ApplicationFiled: July 8, 2020Publication date: October 29, 2020Inventors: Paul MEISSNER, Franz PERNKOPF, Johanna ROCK, Wolfgang ROTH, Mate Andras TOTH
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Publication number: 20200309911Abstract: A method of determining a temporal position of a received signal within a sample series is disclosed. The method includes sampling a sensor at a sampling frequency to generate the sample series. A matched filter set of matched filters is applied to the sample series to generate a matched filter correlation set of matched filter correlations, wherein impulse responses of respective matched filters correspond to a template signal at the sampling frequency of the sensor shifted by a sub-interval shift. The matched filter correlations are evaluated to determine a received signal sub-interval shift. The temporal position of the received signal within the sample series is determined based on at least the received signal sub-interval shift.Type: ApplicationFiled: March 26, 2019Publication date: October 1, 2020Inventors: Paul MEISSNER, Thomas GIGL
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Publication number: 20200292660Abstract: A method for a radar device is described below. According to an example implementation, the method comprises transmitting an RF transmission signal that comprises a plurality of frequency-modulated chirps, and receiving an RF radar signal and generating a dataset containing in each case a particular number of digital values based on the received RF radar signal. A dataset may in this case be associated with a chirp or a sequence of successive chirps. The method furthermore comprises filtering the dataset by way of a neural network to which the dataset is fed in order to reduce an interfering signal contained therein. A convolutional neural network is used as the neural network.Type: ApplicationFiled: March 12, 2020Publication date: September 17, 2020Inventors: Paul MEISSNER, Elmar MESSNER, Franz PERNKOPF, Johanna ROCK, Mate Andras TOTH
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Publication number: 20200191911Abstract: A method is described below which can be used in a radar system. According to one example implementation, the method comprises providing a digital baseband signal using a radar receiver. The baseband signal comprises a plurality of segments, wherein each segment is assigned to a chirp of an emitted chirp sequence and each segment comprises a specific number of samples.Type: ApplicationFiled: December 4, 2019Publication date: June 18, 2020Inventors: Paul MEISSNER, Alexander MELZER, Christian SCHMID, Mate Andras TOTH
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Publication number: 20200158825Abstract: The present disclosure relates to a light detection and ranging (LIDAR) sensor comprising a detector configured to generate a first detector signal at a first delay time following an emission of a first light pulse and to generate at least one second detector signal at the first delay time following an emission of at least a second light pulse; and a processor configured to generate a combined signal for the first delay time based on a combination of the first detector signal and the at least one second detector signal. Depending on the type of combination, the combined signal can be used for interference detection or mitigation.Type: ApplicationFiled: November 20, 2019Publication date: May 21, 2020Applicant: Infineon Technologies AGInventors: Paul MEISSNER, Michiel HELSLOOT, Alexander MELZER, Vladimir PETROVIC, Christoph STEINER, Hendrikus VAN LIEROP
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Publication number: 20200156954Abstract: A method can increase the mechanical stability of compacted potassium chloride granules. The method can include applying water in an amount of 0.1 to 0.4 wt. %, based on the mass of the freshly produced compacted potassium chloride granules, onto the surface of the freshly produced compacted potassium chloride granules while they are still hot.Type: ApplicationFiled: July 27, 2018Publication date: May 21, 2020Applicant: K+S Minerals and Agriculture GmbHInventors: Guide Baucke, Sebastian Kopf, Paul Meissner
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Publication number: 20200124699Abstract: A method is described that can be used in a radar system. In accordance with one exemplary embodiment, the method includes calculating a first spectrum, which represents a spectrum of a segment of a complex baseband signal. The segment is assignable to a specific chirp of a chirp sequence contained in a first RF radar signal. The method further includes estimating a second spectrum, which represents a spectrum of an interference signal contained in the complex baseband signal, based on a portion of the first spectrum that is assigned to negative frequencies.Type: ApplicationFiled: October 18, 2019Publication date: April 23, 2020Applicant: Infineon Technologies AGInventors: Paul MEISSNER, Alexander MELZER, Mate Andras TOTH
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Publication number: 20200088838Abstract: In accordance with an embodiment, a method of operating a radar system includes activating a transmitter to transmit a radar signal during a first time period, receiving a reflection of the radar signal from a radar antenna, downconverting the reflected radar signal, and digitally processing the downconverted reflected radar signal within a first frequency bandwidth using a first signal path. The method also includes deactivating the transmitter during a second time period, receiving a second signal from the radar antenna during the second time period, downconverting the second signal, measuring a power of the downconverted second signal within a second frequency bandwidth using a second signal path different from the first signal path, and determining an interference metric based on measuring the power.Type: ApplicationFiled: September 18, 2018Publication date: March 19, 2020Inventors: Alexander Melzer, Paul Meissner, Mate Andras Toth
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Publication number: 20200017362Abstract: A method for producing potassium chloride granular materials from a crystalline potassium chloride raw material, wherein, before the granulation process, the potassium chloride raw material is treated with at least one alkali metal carbonate and at least one metaphosphate additive in the presence of waterType: ApplicationFiled: August 22, 2017Publication date: January 16, 2020Applicant: K+S AKTIENGESELLSCHAFTInventors: Guido BAUCKE, Armin DIETRICH, Stefan DRESSEL, Sebastian KOPF, Paul MEISSNER, Wolfgang WALCZYK, Ludger WALDMANN