03rd week of 2022 patent applcation highlights part 37 |
Patent application number | Title | Published |
20220018887 | Method for Detecting an Electrical Discharge in an Electrical Apparatus and System Therefor - The present disclosure provides a detection system that includes a first sensing device configured for sensing an acoustic wave and an electromagnetic wave and generating a first combined signal and a signal processing device configured to determine the occurrence and properties of an electrical discharge. | 2022-01-20 |
20220018888 | METHOD AND APPARATUS FOR ANALYSIS OF INTERFACE STATE OF MIS-HEMT DEVICE - Disclosed are method and an apparatus for analysis of an interface state of a MIS-HEMT device. By means of establishing an equivalent model of MIS-HEMT(s) that includes equivalent circuits representing a dielectric layer, a barrier layer and a channel layer, plotting a group of a capacitance-frequency function curve and a conductance-frequency function curve that can be best fitted to the measured capacitance-frequency scatter diagram and the measured conductance-frequency scatter diagram via the equivalent model, taking such best-fitted group as the fitted function curve group, and calculating parameters about the interface state of MIS-HEMT(s) according to the group of assigned values corresponding to the fitted function curve group, the parameters of the analyzed interface state can be more accurate since the fitted frequency function curve group can, with the aid of the equivalent model, simultaneously fit the measured capacitance-frequency scatter diagram and the measured conductance-frequency scatter diagram. | 2022-01-20 |
20220018889 | INSPECTION APPARATUS AND CONTROL METHOD FOR INSPECTION APPARATUS - An inspection apparatus includes a stage on which a substrate having an inspection target is placed, a probe card, a light irradiator, and a controller. The probe card has probes that supply a current to the inspection target. The light irradiator irradiates light to heat the substrate. The controller controls the light irradiator to excecute uniformly heating the inspection target by the light from the light irradiator, and heating an outer peripheral portion of the inspection target by the light from the light irradiator. | 2022-01-20 |
20220018890 | ELECTRONIC DEVICE FOR MANAGING DEGREE OF DEGRADATION - An electronic device including a processor and a sensor may be provided. The processor obtains a first degree of degradation of a first core based on a first parameter value associated with a lifetime of the first core and a first operating level associated with an operation of the first core. The processor obtains a second degree of degradation of a second core based on a second parameter value associated with a lifetime of the second core and a second operating level associated with an operation of the second core. The processor schedules a task of the first core and the second core based on the first degree of degradation and the second degree of degradation. The sensor provides the first parameter value and the first operating level to the first core and the second parameter value and the second operating level to the second core. | 2022-01-20 |
20220018891 | ADJUSTABLE ANCHOR FOR PRINTED CIRCUIT BOARD ENVIRONMENTAL SENSOR - In one example, a first tubular member has a first diameter and is configured to attach to a printed circuit board. A second tubular member has a second diameter different from the first diameter and is configured to hold an environmental sensor for collecting data relating to an environment of the printed circuit board. The second tubular member is vertically adjustable relative to the first tubular member. | 2022-01-20 |
20220018892 | METHOD AND APPARATUS FOR DETECTING CIRCUIT DEFECTS - The disclosure relates to an RFIC apparatus, and more particularly, to an RFIC circuit having a test circuit, a test apparatus, and a test method thereof. Further, the disclosure relates to a method for estimating or determining a DC gain using a test apparatus and an RF circuit in a DC/AC test stage, and detecting defects of the RF circuit based on the estimated or determined DC gain. | 2022-01-20 |
20220018893 | TEST SYSTEM AND METHOD FOR SIGNAL PROCESSING - The invention relates to a test system, comprising: a test instrument, wherein the test instrument comprises an input port configured to acquire a test signal, a display configured to display a graphical representation of the test signal, and an application interface configured to forward the test signal. The test system further comprises a test application module, which is configured to receive the forwarded test signal from the application interface, wherein the test application module comprises a processing unit configured to further process the received test signal, and an instrument interface configured to forward a result of the further processing back to the test instrument and/or to a further device. | 2022-01-20 |
20220018894 | DEVICE AND SYSTEM FOR DETECTING TOUCH PANEL - A device and system for detecting a touch panel are used for detecting a metal mesh on the touch panel, where row direction channels and column direction channels on the metal meshes each include a plurality of touch units which are connected with each other. In the device for detecting a touch panel, a signal transceiving component includes a signal generating unit and a signal receiving unit, which are configured to be arranged on the same side of the metal meshes in preset relative positions, and send and receive a signal through capacitive coupling with the metal mesh, respectively; a defect detecting unit is configured to detect each of a plurality of touch units in the metal meshes based on a detection signal received by the signal receiving unit. | 2022-01-20 |
20220018895 | Diagnosis of Mobile Devices Using Built-In Actuators and Sensors - According to an aspect, there is provided a method for self-diagnosing a mobile device comprising at least one or more actuators, one or more sensors and a display. The method comprises, first, feeding a pre-defined control signal to a first actuator of the mobile device and measuring, in response to the feeding, a first electric signal using a first sensor of the one or more sensors. Then, the first electric signal is compared to one or more reference signals associated with the first actuator and the pre-defined control signal. If the first electric signal fails to match the one or more reference signals according to one or more pre-defined criteria, a negative diagnosis is indicated to a user of the mobile device using one or more of a display of the mobile device and one or more actuators of the mobile device. | 2022-01-20 |
20220018896 | TEST AND MEASUREMENT INSTRUMENT ACCESSORY WITH RECONFIGURABLE PROCESSING COMPONENT - A new test system includes a programmed device having an input port for receiving a signal for testing or measuring on the programmed device, and a reprogrammable test accessory having an output coupled to the input port of the programmed device. The reprogrammable test accessory further includes a test port structured to accept one or more test signals from a Device Under Test (DUT), and a reprogrammable processor. The reprogrammable processor may further include reprogrammable standards and protocols, reprogrammable triggers and margin detection, reprogrammable link training, reprogrammable handshaking, and reprogrammable setup and control facilities for either or both of the DUT and the programmed device. | 2022-01-20 |
20220018897 | SEMICONDUCTOR MODULE INSPECTION DEVICE WITH ROBOT - A semiconductor module inspection device is provided. The semiconductor module inspection device includes a receiver to store semiconductor modules; a loader to receive a semiconductor module from the receiver; a testing unit to receive the semiconductor module from the loader and perform a test process on the semiconductor module; an unloader to receive the semiconductor module from the testing unit and provide the semiconductor module from the testing unit to the receiver; and robots for transporting the semiconductor module. The robots include: a first robot to transport the semiconductor module from the receiver to the loader, a second robot to transport the semiconductor module from the loader to the testing unit, a third robot to transport the semiconductor module from the testing unit to the unloader, and a fourth robot to transport the semiconductor module from the unloader to the receiver. | 2022-01-20 |
20220018898 | INSPECTION APPARATUS - An inspection apparatus includes a stage on which a substrate is placed, a cooler, a probe card, a light irradiator and a controller. The cooler cools the substrate placed on the stage. The probe card has probes to be in contact with the substrate to supply electric power. The light irradiator irradiates light to an upper surface of the substrate, opposite to a bottom surface of the substrate placed on the stage. Further, the controller controls the light irradiator. | 2022-01-20 |
20220018899 | INTEGRATED CIRCUIT AND METHOD FOR DIAGNOSING AN INTEGRATED CIRCUIT - According to one aspect, an integrated circuit includes: an electronic module configured to generate a voltage at an output, and an electronic control circuit coupled to an output of the electronic module, the electronic control circuit comprising an emissive electronic component. The electronic control circuit is configured to cause the emissive electronic component to emit light radiation as a function of a value of the voltage at the output of the electronic module relative to a value of an operating voltage of the electronic module, and the operating voltage is specific thereto during normal operation of this electronic module. The light radiation emitted by the emissive electronic component is configured to diffuse to an outer face of the integrated circuit. | 2022-01-20 |
20220018900 | IEEE 1149.1 INTERPOSER METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for improving interposers that connected stacked die assemblies to system substrates. The improvement includes the addition of IEEE 1149.1 circuitry within interposers to allow simplifying interconnect testing of digital and analog signal connections between the interposer and system substrate it is attached too. The improvement also includes the additional 1149.1 controlled circuitry that allows real time monitoring of voltage supply and ground buses in the interposer. The improvement also includes the additional of 1149.1 controlled circuitry that allows real time monitoring of functional digital and analog input and output signals in the interposer. The improvement also provides the ability to selectively serially link the 1149.1 circuitry in the interposer with 1149.1 circuitry in the die of the stack. | 2022-01-20 |
20220018901 | TECHNIQUES TO ENABLE INTEGRATED CIRCUIT DEBUG ACROSS LOW POWER STATES - An Automated Dynamic low voltage monitoring (LVM) based Low-Power (ADLLP) debug capability for a system-on-chip (SoC) as well as the open/closed-chassis platform for faster TTM (Time to Market) of the final platform or system. ADLLP Debug is achieved by detection of the probe connection between a target system (e.g., SoC) and debug host system. A user can dynamically override the power, clocks and LVM for intellectual property (IP) blocks not part of the debug trace by instructing a Power Management Controller (PMC) via the Inter Processor Communication (IPC) mailbox (or any other suitable mailbox driver) to set the registers in a Target Firmware (TFW) based on the probe and debug use-case. | 2022-01-20 |
20220018902 | MULTI-CAPTURE AT-SPEED SCAN TEST BASED ON A SLOW CLOCK SIGNAL - A circuit comprises a plurality of clock control devices. Each of the clock control devices is configured to generate a scan test clock signal for a particular clock domain in the circuit and comprises circuitry configured to select clock pulses of a fast clock signal as scan capture clock pulses for the particular clock domain based on a particular clock pulse of a slow clock signal and a scan enable signal. The order and spacing between the groups of the scan capture clock pulses for different clock domains correspond to the order and spacing of the clock pulses of the slow clock signal. | 2022-01-20 |
20220018903 | Disconnect Verification - A method for verifying that a disconnect is open includes providing a disconnect verification unit electrically connected to a load side of a disconnect to be verified, having the disconnect verification unit determine whether the contact for each phase of the disconnect is open, having the disconnect verification unit determine whether the leads are connected to the load side of the disconnect; and sending a signal to a user interface of a status of the disconnect. | 2022-01-20 |
20220018904 | METHODS FOR ESTIMATING A PROPERTY OF AN ELECTRIAL SWITCHING DEVICE, ASSOCIATED DEVICES - A method for estimating a property of an electrical switching device includes:
| 2022-01-20 |
20220018905 | HIGH-VOLTAGE INTERLOCKING DEVICE AND METHOD FOR DETECTING THE HIGH-VOLTAGE INTERLOCKING DEVICE - The application provides a high-voltage interlocking device and method for detecting the high-voltage interlocking device. The high-voltage interlocking device includes a first resistance module; a first switch module, a second connection end of the first switch module being connected to a first reference potential through a third resistance module, and a control terminal of the first switch module being configured to receive a first driving signal, to enable the first switch module to be turned on or off; a second resistance module, another end of the second resistance module being connected to a second reference potential; a fourth resistance module; a second switch module, a second connection end of the second switch module being connected to a third reference potential through a fifth resistance module; a fault detection module, configured to determine a fault of the high-voltage component under detection according to a first detection signal. | 2022-01-20 |
20220018906 | Predicting An Outcome Associated With A Driver Of A vehicle - Methods and systems are disclosed for predicting an outcome associated with a driver of a vehicle using a machine learning statistical model. The disclosed techniques include obtaining a plurality of input vectors for plurality of points in time, wherein each input vector includes a plurality of variables with a weight vector. Each variable represents data captured from a sensor or a data source. A training dataset for the machine learning model is created by capturing the values of outcome of interest for various values of each input vector for each point in time. The outcome of interest is the predicted by utilizing the machine learning model. In various embodiments, the predicted outcome of interest may be a risk or an energy consumption level associated with the driver. | 2022-01-20 |
20220018907 | Processing System for Monitoring the Cell Voltages of a Rechargeable Battery, Related Battery Monitoring System and Electric Vehicle - An embodiment processing system comprises terminals configured to be connected to cells of a rechargeable battery to receive cell voltages, a digital processing circuit, a serial communication interface and a transmission queue interfacing the digital processing circuit with the serial communication interface for parallel operation. The digital processing circuit synchronously acquires a given number of digital samples of each of the cell voltages and stores them to a memory. The digital processing circuit encodes the digital samples stored to the memory via a data compression module, and stores the encoded data to the transmission queue. For example, the data compression module may generate the encoded data by subtracting a given offset from each digital sample to generate values indicative of the dynamic variation of each sample with respect to the offset, and removing a given number of most significant bits from each value. | 2022-01-20 |
20220018908 | METHOD OF PRODUCING ALL-SOLID-STATE BATTERY - A method of producing an all-solid-state battery includes forming an insulating layer-attached stack unit including an insulating layer and a stack unit that includes a positive electrode layer, a solid electrolyte layer and a negative electrode layer; performing a dielectric breakdown test on the insulating layer included in the insulating layer-attached stack unit, and determining that the insulating layer-attached stack unit is a non-defective product if no dielectric breakdown is present; forming an electrode member having both ends by disposing the two insulating layer-attached stack units at the both ends, the insulating layer-attached stack unit being determined to be a non-defective product; accommodating the electrode member in a case; and assembling a restraint member to the outside of the case to produce an all-solid-state battery. | 2022-01-20 |
20220018909 | MEASURING APPARATUS AND TESTING APPARATUS - A measuring apparatus includes: N pairs of probes that are respectively connected to a positive electrode and an external member of N rechargeable batteries that have a capacitance connected in parallel between the positive electrode and the external member; a scanner that selectively switches to one pair of probes out of the N pairs; a measuring apparatus that measures the voltage between the selected probes; and a controller. A plurality of resistance configurations to be connected between each pair of probes are provided. After a standby time has elapsed in a state where the N pairs of probes are connected to the positive electrodes and external members of the N rechargeable batteries, the controller outputs control signals to the scanner to successively switch to each pair of probes and causes the measuring apparatus to measure the voltage between the selected probes every time switching is performed. | 2022-01-20 |
20220018910 | MULTI-CHANNEL ATOMIC MAGNETIC DETECTOR - Disclosed is a multi-channel atomic magnetic detector ( | 2022-01-20 |
20220018911 | MAGNETIC SENSOR AND MAGNETIC SENSOR MANUFACTURING METHOD - A magnetic sensor ( | 2022-01-20 |
20220018912 | MEASUREMENT DEVICE AND METHOD FOR MEASURING MAGNETIC RESONANCE SIGNALS IN A MAGNETIC RESONANCE DEVICE AND MAGNETIC RESONANCE DEVICE - A measurement device for measuring MR signals in a MR device may include first and second magnetometers and a controller. The first magnetometer may be a quantum spin magnetometer that includes a sensor material having a spin defect center including Zeeman splitting states dependent on an external magnetic field of the MR device, an optical excitation source and a microwave excitation source for electromagnetically exciting the sensor material, and a measurement sensor for measuring optical signals emitted by the excited sensor material element and depending on the Zeeman splitting states. The controller may be configured to determine a working frequency of the microwave excitation source of the first magnetometer from the total magnetic field strength measured by the second magnetometer, and control the microwave excitation source to use the determined working frequency as microwave frequency, such that the first magnetometer measures the MR signals as the optical signal. | 2022-01-20 |
20220018913 | ATOMIC MAGNETOMETER SYSTEM - One example includes a magnetometer that includes a sensor cell comprising alkali metal vapor and a magnetic field generator system that generates predetermined AC magnetic fields through the sensor cell. The magnetometer also includes a laser system to provide optical pump and probe beams through the sensor cell in a pulsed manner to facilitate precession of the alkali metal vapor and to provide a detection beam corresponding to the optical probe beam exiting the sensor cell. The detection beam exhibits an optical property corresponding to a modified precession of the alkali metal vapor based on the predetermined AC magnetic fields and an external magnetic field. The magnetometer also includes a detection system to monitor the detection beam to detect the modified precession of the alkali metal vapor to calculate scalar and vector components of the external magnetic field based on the plurality of predetermined AC magnetic fields. | 2022-01-20 |
20220018914 | ATOMIC VAPOR CELL AND MAKING AN ATOMIC VAPOR CELL - An atomic vapor cell for performing RF measurements includes: a first optical window of transparent nonconducting material free of electrically conductive materials; an intermediate frame of transparent nonconducting material free of electrically conductive materials; a second optical window disposed on the intermediate frame and including transparent nonconducting material free of electrically conductive materials to minimize distortion of radiofrequency fields by the windows and frame; and a cell aperture, wherein the atomic vapor cell is hermetically sealed by bonding between the first optical window and the second optical window to the intermediate frame. | 2022-01-20 |
20220018915 | SYSTEMS AND METHODS FOR GENERATION OF HYPERPOLARIZED MATERIALS - Systems and methods for generating hyperpolarized target materials are disclosed. The disclosed systems and methods can include hyperpolarizing a compound then transferring polarization to a target material. The compound can be selected to have nuclear spins. The compound can be further selected to have electron spins that, when exposed to certain electromagnetic radiation, exceed a predetermined level of polarization. The compound can be exposed to such electromagnetic radiation, optically hyperpolarizing the electron spins of the compound. Polarization can then be transferred from the electron spins of the compound to nuclear spins of the compound, at least in part by exposing the compound to a magnetic field. The compound can be exposed to the target material before or after pulverizing the compound to increase the surface area of the compound, thereby facilitating transfer of polarization from the compound to the target material. | 2022-01-20 |
20220018916 | METHOD AND SYSTEM FOR MONITORING DEPLETION OF A COOLANT IN A COOLING SYSTEM - A method of monitoring depletion of a coolant in a cooling system associated with imaging modality is disclosed. The method includes receiving set of signal values from sensing unit, wherein set of signal values correspond to parameters of cooling system, determining class associated with set of signal values using an artificial intelligence model, selecting prediction model capable of predicting depletion rate of the coolant based on class associated with set of signal values, computing depletion rate of coolant in cooling system based on set of signal values using the selected prediction model, determining number of days remaining to refill the coolant in cooling system based on the depletion rate of the coolant in cooling system, and generating warning signal on graphical user interface, warning signal indicative of number of days remaining to refill coolant in cooling system. | 2022-01-20 |
20220018917 | COMPACT HYBRID ORTHOGONAL SIGNAL GENERATOR FOR MRI FRONT-END - The disclosure relates to a hybrid orthogonal signal generator, a coil transmission front-end device, an RF coil system, and an MRI system. The hybrid orthogonal signal generator has an input end for receiving an RF signal, generates a hybrid orthogonal excitation signal on the basis of the RF signal, and provides the hybrid orthogonal excitation signal by means of an output end of the hybrid orthogonal signal generator, and comprises: a first conductor, arranged in a plane and being arc-shaped; and a second conductor having mutual inductance with the first conductor, the second conductor being connected between the input end and output end, wherein the first conductor and second conductor are parallel and arranged as mirror images of each other. The hybrid orthogonal signal generator has a compact size and is suitable for providing hybrid orthogonal excitation signals for an MRI system with a low field strength. | 2022-01-20 |
20220018918 | A self-supporting flexible Thermal Radiation shield - A self-supporting flexible shield for location between a warm surface and a cold mass so as to substantially enclose the cold mass, wherein the self-supporting flexible shield comprises a shaped plastic sheet with a low emissivity coating on both of its sides. | 2022-01-20 |
20220018919 | DEVICE AND METHOD FOR ACTIVE LOCAL SUPPRESSION OF RECEPTION IN MAGNETIC RESONANCE RECORDINGS - A magnetic resonance tomography scanner with a noise suppressor for suppressing interferences of reception and a method for operation of the magnetic resonance tomography scanner are provided. The noise suppressor receives an interference signal with a sensor, determines a noise suppression signal with a noise suppression controller, and sends the noise suppression signal using a controllable radio frequency amplifier via a transmit antenna, so that the interference signal on a receive antenna of the magnetic resonance tomography scanner is reduced. | 2022-01-20 |
20220018920 | AUXILIARY CRYOGEN STORAGE FOR MAGNETIC RESONANCE IMAGING APPLICATIONS - The present disclosure relates to a cooling system that includes a superconducting unit and a reservoir configured to store liquid coolant to cool the superconducting unit. The cooling system also includes an auxiliary storage system that includes one or more storage tanks fluidly coupled to the reservoir. The auxiliary storage system is configured to provide additional coolant to the reservoir as well as receive and store coolant from the reservoir. | 2022-01-20 |
20220018921 | B0 SHIMMING DEVICE FOR MRI - A magnetic resonance (MR) apparatus comprises magnet means for generating a main magnetic field in a sample region, encoding means for generating encoding magnetic fields superimposed to the main magnetic field, RF transmitter means for generating MR radiofrequency fields, driver means for operating said encoding means and RF transmitter means to generate superimposed time dependent encoding fields and radiofrequency fields according to an MR sequence for forming images or spectra; and acquisition means for acquiring an MR signal from said object. The magnet means comprise a primary magnetic field source providing a static magnetic field B | 2022-01-20 |
20220018922 | Systems and Methods for Rapidly Determining One or More Metabolite Measurements from MR Spectroscopy Data - Systems and methods provide a parallelized deep learning approach to spectral fitting for magnetic resonance spectroscopy data enabling accurate and rapid spectral fitting and determination of metabolite measurements using a conventional computer. The method may include processing multi-spectra magnetic resonance (MR) spectroscopy data of a region of interest through a series of neural networks. The method may include determining baseline components of each spectrum using a first neural network of the series, generating baseline-corrected components for each spectrum using the baseline components; and determining one or more peak components of each spectrum using a second neural network of the series and the baseline-corrected components. The method may further include determining one or more metabolite measurements of the one or more metabolites in the region of interest using the one or more peak components. | 2022-01-20 |
20220018923 | Method and Apparatus for Image Processing - There is provided an image processing method capable of generating an image representative of a magnetic field distribution. The method starts with acquiring phase images providing visualization of electromagnetic fields respectively in a plurality of columns. Then, each of the electromagnetic fields in the columns within the phase images is separated into magnetic field and electric field components. An image representative of a magnetic field distribution is created based on the separated magnetic field components. The step of separating each electromagnetic field includes separating the electromagnetic field in a first one of the columns into magnetic field and electric field components based on the electromagnetic field in a second one of the columns, the latter electromagnetic field having an electric field component oriented in the same direction as that in the first column. | 2022-01-20 |
20220018924 | AN ANALYSIS METHOD OF DYNAMIC CONTRAST-ENHANCED MRI - The present invention discloses an analysis method for dynamic contrast-enhanced magnetic resonance image. Firstly, the time-series signal of vascular contrast agent concentration, AIF, of biological individual is obtained from DCE-MRI time-series data. Secondly, perform the nonlinear least sum of square fitting by using the full Shutter-Speed model (SSM | 2022-01-20 |
20220018925 | BASE STATION ANTENNA ARRAY ORIENTATION CALIBRATION FOR CELLULAR POSITIONING - Disclosed are techniques for wireless communication. In an aspect, a network entity determines a location of a target base station and a location of at least one reference device, determines an angle-of-arrival (AoA) measurement of one or more reference signals received by at least one antenna array of the target base station from the at least one reference device, determines an expected AoA between the at least one antenna array and the at least one reference device based on the location of the target base station and the location of the at least one reference device, and determines an orientation offset of the at least one antenna array based on a difference between the expected AoA and the AoA measurement. | 2022-01-20 |
20220018926 | Personnel Safety Sensing System - A location system for locating workers including a plurality of light detectors mounted at known locations and configured to detect light from one or more workers, and a processing system configured to determine locations of the workers using the light detected by the light detectors. There is also disclosed a wearable device for locating a worker including a wireless transceiver, and a wearable device light source and/or one or more reflective elements. There is also disclosed a method for locating workers including detecting light from one or more workers using a plurality of light detectors mounted at known locations, and determining locations of the workers using the light detected by the light detectors. | 2022-01-20 |
20220018927 | LOCALIZATION ESTIMATION FOR NON-TERRESTRIAL NETWORKS - It is provided a method, comprising measuring, during a period, a first time of arrival (TOA) of a first signal from a first satellite, a second TOA of a second signal from a second satellite, and a third TOA of a third signal from a third satellite; reporting, after the period has elapsed, the first TOA along with the first cell identifier and a first parameter enabling to derive a transmit time of the first signal, the second TOA along with the second cell identifier and a second parameter enabling to derive a transmit time of the second signal, and the third TOA along with the third cell identifier and a third parameter enabling to derive a transmit time of the third signal, wherein the first TOA is measured within a set first interval in the period; the second TOA is measured within a set second interval in the period; the second interval does not overlap the first interval. | 2022-01-20 |
20220018928 | RADAR DEVICE - In a radar device ( | 2022-01-20 |
20220018929 | POWER CONTROL FOR RADAR APPLICATIONS AND METHOD THEREOF - A radar system includes a hybrid-power amplifier and a power control unit coupled to the hybrid-power amplifier. The power control unit is configured to control the amplification of a chirp signal output by the radar system based upon an assessment of an interchirp time provided by a chirp profile. The interchirp time is a time difference between a first chirp signal and a second chirp signal that are to be output by the hybrid-power amplifier. When the power control unit determines that the interchirp time is less than an interchirp time threshold, a fast-power loop control configuration is used to control the transmitted output power at hybrid amplifier level. When the power control unit determines that the interchirp time is equal to or greater than the interchirp time threshold, a slow-power loop configuration or a combination of the slow-loop configuration and the fast-loop configuration is used to control the transmitted output power at the hybrid-power amplifier. A look-up table generated by the power control unit in a controller is used to ascertain the control signals and values that are to be used by the hybrid-power amplifier and voltage regulator to amplify the chirp signal. | 2022-01-20 |
20220018930 | Programmable Millimeter Wave Radar Integrated Circuit - A radar receiver stage on an integrated circuit and a method of processing a received radar signal, are provided. In one aspect, the receiver stage includes a low noise amplifier adapted to be connected to a receiver antenna structure, a first programmable gain amplifier, a first programmable bandpass filter, a second programmable gain amplifier, a second programmable bandpass filter, and a programmable low pass filter. One example method includes selecting a radar system configuration including a system type comprising an FMCW system or a Doppler system, programming at least a first programmable gain amplifier stage to a first gain, programming a first programmable bandpass filter stage to a first center frequency; and programming a programmable low pass filter to a first LPF gain. | 2022-01-20 |
20220018931 | DELAY CALIBRATION FOR A STEPPED FREQUENCY CONTINUOUS WAVE DIGITAL SIGNAL CHAIN - Delay calibration for digital signal chains of SFCW systems is disclosed. An example calibration method includes receiving a burst with a test pulse, the burst having a duration of L clock cycles; receiving a trigger indicative of a time when the burst was transmitted; generating a digital signal indicative of the received burst; for each of L clock cycles, computing a moving average of a subset of digital samples and an amplitude for each average; identifying one moving average for which the computed amplitude is closest to an expected amplitude; identifying the clock cycle of the identified moving average; and updating at least one delay to be applied in digital signal processing of received bursts based on a difference between the trigger and the identified clock cycle. The delay may be used for selecting digital samples of the received signal that contain valid data for performing further data processing. | 2022-01-20 |
20220018932 | CALIBRATION APPARATUS, CALIBRATION METHOD, PROGRAM, AND CALIBRATION SYSTEM AND CALIBRATION TARGET - A calibration unit | 2022-01-20 |
20220018933 | SYSTEMS, DEVICES, AND METHODS FOR REAL-TIME INTEFERENCE DETECTION - Signal processing circuitry includes at least one processor configured to obtain a digitized radar signal, and further configured, for one or more iterations, to: determine a first power of at least one first signal sample of the radar signal; determine a second power of at least one second signal sample of the radar signal, the at least one second signal sample being subsequent in time to the at least one first signal sample; and determine a difference value between the second power and the first power. The at least one processor further configured to detecting a burst interference signal occurring within the radar signal based on the one or more difference values from the one or more iterations. | 2022-01-20 |
20220018934 | COORDINATED MINI-RADAR TARGET SIMULATORS FOR IMPROVED ACCURACY AND IMPROVED GHOST CANCELLATION - A system for testing vehicular radar is disclosed. The system includes a re-illumination element adapted to receive electromagnetic waves, and to transmit response signals. The re-illumination element includes: a plurality of miniature radar target simulators (MRTS's), each comprising: a receive antenna; a variable gain amplifier (VGA); an in-phase-quadrature (IQ) mixer; a variable attenuator; and a transmit antenna. The MRTS's are disposed in an array comprising rows and columns of the MRTS's, and each MRTS of the array is laterally spaced a distance p | 2022-01-20 |
20220018935 | TARGET ALIGNMENT FOR VEHICLE SENSOR CALIBRATION - A system and method for aligning a target to an equipped vehicle for calibration of a sensor on the equipped vehicle includes a vehicle support stand upon which an equipped vehicle is disposed in an established known position for calibration of the sensor, and a target adjustment stand configured to moveably hold a target. The target adjustment stand is configured to position the target into a calibration position relative to the sensor on the equipped vehicle based on the established known position of the equipped vehicle on the vehicle support stand whereby the sensor is able to be calibrated using the target. | 2022-01-20 |
20220018936 | SENSOR - A sensor includes: a correlation matrix calculator which calculates a correlation matrix from biological information extracted using reception signals obtained by receiving, in a predetermined period, signals transmitted to a predetermined space; a first number information calculator which calculates first number information; a MUSIC spectrum calculator which estimates a candidate of a position of at least one living body and outputs a likelihood spectrum; and a second number information calculator which estimates a position or second number information, which is a total number of living bodies with an increased degree of likelihood, from first position information possibly including a plurality of position candidates. | 2022-01-20 |
20220018937 | DISTANCE MEASUREMENT DEVICE, DISTANCE MEASUREMENT METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - A distance measurement device includes the plurality of laser sensors and a processor. The plurality of laser sensors configured to project a laser beam and receive reflected light from a measurement target that moves within a measurement region. The processor configured to drive, based on the measurement region and a provision position of the plurality of laser sensors, each of the laser sensors at a light emission cycle in which a light receiving window that receives reflected light of own light and an interference risk range are included the interference risk range being a range in which an interference is caused by a laser beam from another laser sensor. The processor controls to laser beam emission timings of the plurality of laser sensors so as to be different from each other. | 2022-01-20 |
20220018938 | OPTICAL INTERFERENCE FILTERS - An optical device includes an emitter operable to emit a first light wave. The optical device also includes a detector operable to detect a second light wave that is based on the first light wave. The second light wave is susceptible to being coupled with an undesired light wave that is based on the first light wave. The optical device further includes an interference filter disposed on the detector. The interference filter includes a first filter portion and a second filter portion having a first set of layers formed from a first material and a second set of layers formed from a second, different material. The interference filter is operable to attenuate undesired light waves in multiple distinct environments based on the first and second sets of layers in the second filter portion. | 2022-01-20 |
20220018939 | APPARATUS AND METHOD FOR A BEAM-DIRECTING SYSTEM USING A GATED LIGHT VALVE - In one embodiment, an apparatus includes a first stage and a second stage. The first stage may include a micro light-directing unit that is operable to receive a light beam from a light source and direct the light beam along one dimension to discrete input locations of a second stage. The second stage may be operable to receive the light beam from the first stage at the discrete input locations along the one dimension and direct the light beam through two dimensions to discrete output locations of the second stage to scan a three-dimensional space. | 2022-01-20 |
20220018940 | VISION FIRST LIGHT DETECTION AND RANGING SYSTEM - A vision first light detection and ranging (LIDAR) system captures an image including a targeted object and uses the image to determine a predicted location of the targeted object. Based on the predicted location, the vision first LIDAR system directs a tracking beam onto the targeted object and detects a portion of the tracking beam reflected by the targeted object. The vision first LIDAR system includes an image sensor to capture the image for predicting the location of the targeted object and includes a distance sensor to determine a distance to the targeted object using the tracking beam. | 2022-01-20 |
20220018941 | BEAM STEERING AWARE PIXEL CLUSTERING OF SEGMENTED SENSOR AREA AND IMPLEMENTING AVERAGING ALGORITHMS FOR PIXEL PROCESSING - A scanning system includes a scanning structure configured to rotate about at least one first scanning axis; a driver configured to drive the scanning structure about the at least one first scanning axis and detect a position of the scanning structure with respect to the at least one first scanning axis during movement of the scanning structure; a segmented pixel sensor including a plurality of sub-pixel elements arranged in a pixel area; and a controller configured to selectively activate and deactivate the plurality of sub-pixel elements into at least one active cluster and at least one deactivated cluster to form at least one active pixel from the at least one active cluster, receive first position information from the driver indicating the detected position of the scanning structure, and dynamically change a clustering of activated sub-pixel elements and a clustering of deactivated sub-pixel elements based on the first position information. | 2022-01-20 |
20220018942 | Multilayer Optical Devices and Systems - One example system comprises a plurality of substrates disposed in an overlapping arrangement. The plurality of substrates includes at least a first substrate and a second substrate. The system also comprises a first waveguide disposed on the first substrate to define a first optical path on the first substrate. The first waveguide is configured to guide light along the first optical path and to transmit, at an output section of the first waveguide, the light out of the first waveguide toward the second substrate. The system also comprises a second waveguide disposed on the second substrate to define a second optical path on the second substrate. An input section of the second waveguide is aligned with the output section of the first waveguide to receive the light transmitted by the first waveguide. The second waveguide is configured to guide the light along the second optical path. | 2022-01-20 |
20220018943 | Ranging Method, Radar, and Vehicle-Mounted Radar - A ranging method includes determining a pixel matrix based on a received echo signal, determining a first amplitude value set based on a first pixel, determining a second pixel based on the first pixel, determining, based on the second pixel, a second amplitude value set based on the second pixel, performing a summation on a target first amplitude value set and a target second amplitude value set, obtaining a target ranging set based on all first amplitude value sets and all second amplitude value sets, and performing a ranging based on the target ranging set to improve a signal-to-noise ratio of an accumulated amplitude value set and a ranging accuracy. | 2022-01-20 |
20220018944 | RANGING APPARATUS AND MEASURING APPARATUS - A ranging apparatus includes a photodetector ( | 2022-01-20 |
20220018945 | READOUT ARCHITECTURE FOR FMCW LIDAR - Provided is a readout integrated circuit of a FMCW LiDAR system includes a transimpedance amplifier to receive an optical signal of optical mixer output from balanced PIN photo diode, convert the received optical signal into a current signal including a mixed signal of high and low frequencies, and convert the current signal into a voltage signal including a low frequency sinusoidal waveform, a comparator to receive the voltage signal, and generate a pulse signal from the voltage signal, a primary counter to receive a primary signal corresponding to the pulse signal, and count a number of pulses to generate primary counter data, a reference counter to receive a reference signal, and count a number of pulses to generate reference counter data, and an arithmetic logic unit to receive the primary and reference counter data, and calculate depth information corresponding to a distance of a target. | 2022-01-20 |
20220018946 | MULTI-FUNCTION TIME-OF-FLIGHT SENSOR AND METHOD OF OPERATING THE SAME - A method of operating a time-of-flight (ToF) sensor including at least one depth pixel having a multi-tap structure and a light source illuminating a transmission light to an object is provided. An operation mode of a ToF sensor is determined among a distance detection mode to sense a distance to an object and a plurality of additional operation modes. A plurality of taps of a depth pixel and a light source are controlled based on the determined operation mode such that the plurality of taps generate a plurality of sample data corresponding to the determined operation mode. A sensing result corresponding to the selected operation mode is determined based on the plurality of sample data. A plurality of functions, in addition to a function of the ToF sensor to measure a distance to an object, may be performed efficiently by controlling the plurality of taps of the depth pixel and the light source depending on the operation modes. | 2022-01-20 |
20220018947 | LIDAR AND ADJUSTMENT METHOD THEREOF - This application provides an optical device, including an emitting assembly configured to emit an outgoing light signal, a beam splitting assembly configured to pass the outgoing light signal from the emitting assembly to a detection region, receive a reflected light signal from the detection region, and modify a transmission direction of the reflected light signal, a receiving assembly configured to receive the reflected light signal from the beam splitting assembly after the direction modification and generate an electrical signal in response to the reflected light signal. Also disclosed is a method of adjusting an optical device as described herein. | 2022-01-20 |
20220018948 | METHOD AND APPARATUS FOR RADAR IDENTIFICATION - An inductive system for vehicle information capture, having a radar module adapted to identify an echo signal having an amplitude over a threshold value, an interrogator module coupled to the radar module and adapted to initiate a radio frequency identification (RFID) information exchange when the amplitude is over the threshold value, a processor coupled to the radar module and the interrogator module, and a memory storage unit adapted to store RFID information. Examples disclosed herein provide methods and apparatus for vehicle sensors and vehicle identification. | 2022-01-20 |
20220018949 | Positioning Device, Communications System and Method - An exemplary communications system includes a first base station and a second base station. The first base station transmits a first signal to the second base station, and the second base station receives the first signal and transmits a second signal in response. The first base station receives the second signal and transmits a third signal in response. A receiving unit of a device receives the first, second, and third signals. The device measures a first delay time between receipt of the first signal and receipt of the second signal, and measures a first round trip time based on receipt of the second signal and the third signal. A second round trip time and a second delay time are determined and a first time difference of arrival is calculated based on the first round trip time, first delay time, second round trip time and second delay time. | 2022-01-20 |
20220018950 | INDOOR DEVICE LOCALIZATION - An example system for measuring three-dimensional (3D) coordinate values of an environment is provided. The system includes a mobile scanning platform configured to measure coordinates in the environment. The mobile scanning platform has one or more radio antennas. The system further includes one or more processors operably coupled to the mobile scanning platform, the one or more processors being responsive to nontransitory executable instructions for performing a method. The method includes registering the measured coordinates to generate a point cloud. Registering includes triangulating a position of the mobile scanning platform based at least in part on data received from the one or more radio antennas. Registering further includes adjusting an orientation or position of one or more of the measured coordinates to align with a layout of the environment. | 2022-01-20 |
20220018952 | Area-selective radar detection - A method of radar detection of targets in an environment, comprising cyclically obtaining a detection profile that associates with each position in the protected area an amount of radar signal that has been reflected, and detecting targets from the detection profile in different modes. A base mode is used for a first series of cycles and is insensitive to motionless targets and sensitive to dynamic targets that move between different locations in the protected area. When the base mode detects a target, two additional modes are started, which are active in different areas. In first areas, a fine movement detection mode is used, which also neglects motionless targets and may be more sensitive than the base mode. In second areas, a presence mode detects both dynamic and motionless targets. When neither the presence mode nor the fine movement mode detects any target for a sufficient time, no people in danger are deemed to be present in the area and the base mode may be restored. | 2022-01-20 |
20220018953 | METHOD AND APPARATUS FOR BLURRING EFFECT MITIGATION IN GROUND-BASED RADAR IMAGES - In a method for mitigating the blurring effect in a radar image ( | 2022-01-20 |
20220018954 | Saddle riding type vehicle comprising a collision risk reduction system - A saddle riding type vehicle including a main body extending along a longitudinal axis and having a front part, a tail part and a central part interposed between the front part and the tail part, at least one front wheel and at least one rear wheel, a motor operatively connected to at least one of the wheels, a system mounted on the main body for reducing a collision risk and comprising at least one active radar reflector, where the collision risk reduction system allows the radar visibility of the vehicle to be increased as a radar target, i.e. increasing its equivalent radar cross section, in order to reduce the risk of the vehicle being involved in a collision with another vehicle equipped with automotive radar which, in an operating condition and during operation, approaches the vehicle. | 2022-01-20 |
20220018955 | SYSTEM AND METHOD OF ASSISTED OR AUTOMATED GRAIN UNLOAD SYNCHRONIZATION - A system includes an agricultural harvester with an electromagnetic detecting and ranging module and a camera for capturing images of an area within a field of view of the electromagnetic detecting and ranging module. One or more computing devices detect the presence of an object using data from the electromagnetic detecting and ranging module, use image data from the camera to determine whether the object is a receiving vehicle and, if the object is a receiving vehicle, generate automated navigation data to automatically control operation of at least one of the agricultural harvester and the receiving vehicle to align an unload conveyor of the agricultural harvester with a grain bin of the receiving vehicle. | 2022-01-20 |
20220018956 | METHOD FOR RETRIEVAL OF LOST RADIAL VELOCITY IN WEATHER RADAR, RECORDING MEDIUM AND DEVICE FOR PERFORMING THE METHOD - A method for retrieval of lost radial velocity in weather radar includes expanding a radial velocity area to non-meteorological echoes including sea clutter and chaff echo using raw radar data for use of a wind field calculation area, correcting radial velocity by replacing the radial velocity determined as noise using a median sign comparison method with a median calculated within a window to which the radial velocity belongs, distinguishing a lost radial velocity area by comparing the corrected radial velocity with radar reflectivity data, and retrieving lost radial velocity using a Velocity Azimuth Display (VAD) fit function representing radial velocity of particles observed along a radar radiation source at a certain elevation in the lost radial velocity area as a function of an azimuth angle. Accordingly, it is possible to improve the quality of calculated wind field using the improved radar radial velocity, and provide more accurate dynamic structure information of the precipitation system. | 2022-01-20 |
20220018957 | DIRECT CHIP-ON-ARRAY FOR A MULTIDIMENSIONAL TRANSDUCER ARRAY - For direct chip-on-array for a multi-dimensional transducer array, the generally rigid and conductive dematching layer is extended beyond a footprint of the transducer array. The ASIC is directly connected to the dematching layer on one side, while the other side provides for electrical connection to the elements of the array and I/O pads for connections (e.g., flex-to-dematching layer) to the ultrasound imaging system. By using the dematching layer rigidity, the ASIC may be protected during formation of the acoustic stack. By using the dematching layer conductivity, any mis-alignment is compensated by the routing through the dematching layer, and/or a large flat region is provided for I/O, allowing for good low temperature asperity contact connections with larger area than flip-chip solder bumps. By providing the I/O for the system connections on a different side of the dematching layer than the ASIC, a large keep-out distance due to underfill may be avoided. | 2022-01-20 |
20220018958 | FISH FINDER TRANSDUCER MOUNT APPARATUS - A fish finder transducer mount apparatus for independently controlling a directional transducer and trolling motor includes a clamp body. A motor clamp is coupled to the clamp body. The motor clamp is selectively engageable with the clamp body and configured to secure the apparatus to a propeller shaft of a trolling motor. A directional transducer shaft is rotatably coupled to the clamp body and a directional transducer shaft bottom end of the directional transducer shaft to receive a directional transducer of a fish finder. A gearing system is coupled to the directional transducer shaft to rotate the directional transducer shaft. A handle is coupled to the gearing system. The handle comprises an extension portion secured by a user to manipulate the orientation of the directional transducer shaft. | 2022-01-20 |
20220018959 | DISTANCE MEASUREMENT SYSTEM AND METHOD FOR DISPLAYING DETECTION INTENSITY DISTRIBUTION OF DISTANCE MEASUREMENT SENSOR - There is provided a distance measurement system in which a plurality of distance measurement sensors are installed to detect an object in a measurement area, the system including: a detection intensity distribution display device that performs quantification according to light intensities of light which reaches the object after being emitted from the distance measurement sensors, or point cloud numbers, and displays colors or lights and shades according to magnitudes of numerical values to perform visualization and a display. The detection intensity distribution display device regards a space in front of the distance measurement sensors as one cube, divides the cube into a plurality of small cubes (voxels), and quantifies a detection intensity according to the light intensity of the light that reaches each of the voxels after being emitted from the distance measurement sensors, or the point cloud number of each of the voxels. | 2022-01-20 |
20220018960 | METHOD FOR COORDINATE ERROR CORRECTION WITH A THREE-DIMENSIONAL LIDAR SCANNER - A method for coordinate error correction with a three-dimensional (3D) lidar scanner. The error source that affects the measurement accuracy of the three-dimensional coordinate is determined by building an error model, and then the error is modified to improve the measurement accuracy of the three-dimensional lidar scanner. The error correction method includes: building a theoretical calculation model, analyzing the source of measurement error, building an error model, solving the error model and implementing coordinate correction. During building the error model, 26 error factors are considered to obtain a calculation expression of the three-dimensional Cartesian coordinate. The calculation expression includes the amount of errors, the azimuth angle, the pitch angle and the distance. | 2022-01-20 |
20220018961 | LIDAR WITH ADAPTIVE LASER POINT DENSITY - A LIDAR may be configured to scan a field of view (FOV) with non-uniform density, based on previous scans of the FOV. However reconfiguring a LIDAR during an ongoing scan of a FOV to perform a dense scan of an object, poses additional challenges (e.g. completing the scan of the whole FOV within the original timeframe). Within embodiments, a LIDAR that is originally configured to scan a FOV can be reconfigured during the scan, in response to detecting an object, to thereby investigate the object with a higher than initially planned density of laser pulses. In order to complete the scan of the FOV in a target time the LIDAR may be reconfigured a second time to scan a remaining portion of the FOV with a lower than initially planned density. | 2022-01-20 |
20220018962 | POSITIONING METHOD AND DEVICE BASED ON MULTI-SENSOR FUSION - A positioning method and device based on multi-sensor fusion are provided and relates to object positioning field. The method includes obtaining sensor data collected by various sensors on a movable object in real time; temporally and spatially synchronizing sensor data collected by the sensors to form various temporally and spatially synchronized sensor data; performing data preprocessing and correlation on the temporally and spatially synchronized sensor data to form to-be-jointly-optimized sensor data; obtaining state information at each time point before a current time point in a preset sliding window; and determining a current pose state of the movable object by performing a joint optimization according to the to-be-jointly-optimized sensor data and the state information at each time point before the current time point in the sliding window. The movable object can be accurately positioned in scenarios where GPS signals are lost, jumping exists, or LiDAR observation is degraded seriously. | 2022-01-20 |
20220018963 | Walk-Off Compensation In Remote Imaging Systems - Systems and methods described herein are directed to high speed remote imaging systems, such as Light Detection and Ranging (LIDAR) systems. Example embodiments describe systems that are configured to mitigate a walk-off effect that may limit a speed of operation of the imaging system. The walk-off effect may be characterized by a failure to steer returning signals to a designated input facet of the imaging system due to continuous rotation of mirrors associated with the steering mechanisms. The walk-off effect may be mitigating by configuring more than one input waveguide to receiving returning signals associated with an output signal. The input waveguides may be spaced apart and configured to sequentially receive the input signals. In some embodiments, walk-off mitigation may extend a range of operation of the imaging systems. | 2022-01-20 |
20220018964 | SURROUNDINGS DETECTION DEVICE FOR VEHICLE - A surroundings detection device includes an infrared light projector, an infrared camera, and a processor. The infrared light projector is configured to output infrared light by switching between a uniform irradiation mode in which a predetermined range is irradiated with the infrared light, and a pattern irradiation mode in which the predetermined range is irradiated with the infrared light in a predetermined pattern. The processor is configured to: generate an image with brightness distribution for the predetermined range reflected by a target present in the predetermined range; and generate an image with pattern distribution for the predetermined range reflected by a target present in the predetermined range, and detect the distance to the target in the predetermined range based on the image with pattern distribution. | 2022-01-20 |
20220018965 | APPARATUS COMPRISING A TIME-OF-FLIGHT SENSOR AND METHOD FOR CHARACTERIZING A TIME-OF-FLIGHT SENSOR - A method for characterizing a time-of-flight sensor is provided. The time-of-flight sensor is covered by a cover exhibiting an adjustable transmittance. The method includes selectively adjusting the transmittance of the cover such that the cover is opaque for light emittable by the time-of-flight sensor. Further, the method includes performing at least one time-of-flight measurement with the time-of-flight sensor while the cover is opaque for obtaining measurement data for light reflected from the cover back to the time-of-flight sensor. The method additionally includes determining characterization data based on the measurement data. The characterization data indicate a quantity related to the time-of-flight sensor. | 2022-01-20 |
20220018966 | OBJECT DETECTION DEVICE - An object detection device can dynamically set an appropriate object detection region according to a state of an inherently unobstructive moving object. The device includes: an optical scanning unit configured to scan measurement light in a measurement space and to guide reflected light from a reflector; a reflector detection unit configured to detect reflector information including a distance from the device to the reflector, a reflected light intensity, and a scanning direction of the measurement light; a reference body identification unit configured to identify whether the reflector is a predetermined reference body, based on the reflector information; a region defining unit configured to define an object detection region along the reference body, based on the reflector information about the reference body; and an object determination unit configured to determine, as a target object, a reflector that is present in the region and that is not identified as the reference body. | 2022-01-20 |
20220018967 | METHODS AND APPARATUSES FOR SECURING OPTICAL MODULES IN A LiDAR SYSTEM - An optical module of a Light Detection and Ranging (LiDAR) module for a vehicle can include a frame, a front plate, a rear plate, and a transmission module. The frame can include a base, four pillars extending from the base, and four beams extending between the pillars opposite the base. The transmission module can include a chassis, a laser module and an optical lens module. The front plate and rear plate can be coupled to the frame to define a support structure. The transmission module may be secured to the support structure by slidably coupling the chassis of the transmission module to the front plate and the rear plate, and securing the chassis to at least one of the front plate and the rear plate with a fastener so that the fastener and the slidable coupling restrain the transmission module to the support structure in six degrees of freedom. | 2022-01-20 |
20220018968 | POSITION CORRECTION INFORMATION DELIVERY SYSTEM AND METHOD, BASE STATION, AND PROGRAM - In a position correction information delivery system using a positioning scheme in which a receiver and a reference station measure a phase of a carrier wave from a satellite and position information of the receiver is obtained in real time based on position correction information transmitted from the reference station, the receiver transmits a request for position correction information to a first base station managing a cell that the receiver camps on, on reception of the request from the receiver, the first base station selects a nearby second base station having a reference station or a nearby reference station from those registered in a database, receives the position correction information from the selected second base station or reference station, and broadcasts the position correction information to the cell. | 2022-01-20 |
20220018969 | SYSTEM AND METHOD FOR PROVIDING GNSS CORRECTIONS - A system or method for generating or distributing GNSS corrections can include or operate to: generate a set of corrections based on satellite observations, wherein each correction of the set of corrections comprises an area associated with the correction, a tag, and correction data; update a set of stored corrections with the set of received corrections based on a tag associated with each correction of the set of stored corrections and the tag associated with each correction of the set of received corrections; and transmit stored corrections of the set of stored corrections to the GNSS receiver when the area associated with the stored corrections matches the locality of the GNSS receiver. | 2022-01-20 |
20220018970 | METHOD, PERFORMED BY GNSS RECEIVER, FOR PROCESSING DATA SIGNAL, AND RECORDING MEDIUM AND GNSS RECEIVER SYSTEM - This application relates to a data signal processing method. In one aspect, the method includes receiving a data signal from at least one global navigation satellite system (GNSS) satellite and obtaining a pseudo-range of the at least one GNSS satellite by using the data signal. The method may also include obtaining a range-acceleration based on the pseudo-range. The method may further include applying, to the data signal, a variance obtained by assigning a weight according to a noise model to the range-acceleration. | 2022-01-20 |
20220018971 | ACCURACY OF A GNSS RECEIVER THAT HAS A NON-DIRECTIONAL ANTENNA - The technology disclosed teaches a method of improving accuracy of a GNSS receiver that has a non-directional antenna, with the receiver sending CDN a request for predictive data for an area that includes the receiver. Responsive to the query, the method includes receiving data regarding LOS visibility for the receiver with respect to individual satellites, and the receiver using the data for satellite selection, for choosing some and ignoring other individual satellites. Also disclosed is using the data to exclude from satellite selection at least one individual satellite based on lack of LOS visibility to the individual satellite. Further disclosed is recognizing and rejecting spoofed GNSS signals received by a GNSS receiver that has a non-directional antenna, in response to a CDN response to a request for predictive data for an area that includes the receiver, with the receiver comparing the data with measures of signals received from individual satellites. | 2022-01-20 |
20220018972 | PATH PLANNING USING FORECASTS OF OBSCURATION AND MULTIPATH - The technology disclosed teaches a method of path planning using a GNSS Forecast, requesting the GNSS Forecast of signal obscuration on behalf of a vehicle travelling in a region, receiving and using the Forecast to plan a path or route that has GNSS signals available over the path or route that satisfy a predetermined criterium. Also taught are GNSS Forecasts and planned paths or routes for a plurality of flying vehicles used by a flight control system, requesting the GNSS Forecast of signal obscuration on behalf of a flying autonomous or automated vehicle travelling in a region, receiving and using the Forecast and to plan a path with GNSS signals available over the path that satisfy predetermined criteria including accommodating real-time changes in flight paths, without leaving space, that satisfies the predetermined criteria. Also taught is certifying performance of GNSS receivers used on a flying vessel. | 2022-01-20 |
20220018973 | GNSS SATELLITE LINE OF SIGHT DETECTION - Disclosed are techniques for processing satellite signals for computing a geospatial position. A plurality of GNSS signals are received from a plurality of GNSS satellites. An image is captured using an imaging device at least partially oriented toward the plurality of GNSS satellites. The image is segmented into a plurality of regions based on RF characteristics of objects in the image. An orientation of the image is determined. The plurality of GNSS satellites are projected onto the image based on the orientation of the image such that a corresponding region is identified for each of the plurality of GNSS satellites. Each of the plurality of GNSS signals is processed in accordance with the corresponding region. | 2022-01-20 |
20220018974 | X RAY DEVICE AND MANUFACTURING METHOD THEREOF - An X ray device, including an array substrate, a scintillator layer, a first adhesion layer, a function film, and a second adhesion layer, is provided. The scintillator layer is disposed on the array substrate. The first adhesion layer is disposed between the scintillator layer and the array substrate. The function film is disposed on the array substrate. The second adhesion layer is disposed between the function film and the array substrate. The function film covers the scintillator layer. | 2022-01-20 |
20220018975 | RADIATION IMAGING PANEL, RADIATION IMAGING APPARATUS, RADIATION IMAGING SYSTEM, AND SCINTILLATOR PLATE - A radiation imaging panel is provided. The panel comprises a substrate on which a plurality of pixels each including a photoelectric conversion element are arranged, a scintillator arranged over the substrate, and a protective layer arranged so as to cover the scintillator. The scintillator includes a plurality of columnar crystals containing an alkali metal halide. The protective layer includes a resin layer containing a resin to which particles of a metal oxide are added. A thickness of the resin layer from an apex of each of the plurality of columnar crystals to an upper surface of the resin layer is not less than 10 μm and less than 30 μm, and a concentration of the particles in the resin layer is not less than 0.15 vol % and less than 7.5 vol %. | 2022-01-20 |
20220018976 | METHOD AND APPARATUS TO IMPROVE ROBUSTNESS IN A DIGITAL RADIOGRAPHIC CAPTURE DEVICE - A digital radiographic detector having a core assembly and a housing enclosing the core assembly. Sidewalls of the housing have a thickness greater than the top and bottom sides of the housing. A first planar spring couples the core assembly to an interior surface of the housing. A second planar spring may be attached to the core assembly and abutting another interior surface of the housing. | 2022-01-20 |
20220018977 | RADIATION SENSOR - A radiation sensor that may include a first transistor, a first isolated conductive structure that comprises a floating gate of the first transistor, a first group of radiation sensing diodes that are coupled to each other, wherein the first group is configured to convert sensed radiation that is sensed by the first group to a first output signal, and to change a state of the first isolated conductive structure using the first output signal, a second transistor, a second isolated conductive structure that comprises a floating gate of the second transistor, and a second group of radiation sensing diodes that are coupled to each other, wherein the second group is configured to convert sensed radiation that is sensed by the second group to a second output signal, and to change a state, under a control of the first transistor, of the second isolated conductive structure using the second output signal. | 2022-01-20 |
20220018978 | DETECTOR CIRCUIT - Some embodiments include an imaging system comprising a detector substrate, at least one detector circuit comprising a capacitor coupled with the detector substrate, the capacitor arranged to collect an electrical charge from the detector substrate, and the imaging system further comprises at least one programmable current source, arranged to provide a neutralizing charge to the capacitor, and the imaging system is configured to select a value for the neutralizing charge in dependence of a frame number. | 2022-01-20 |
20220018979 | DEVICES FOR MOUNTING IMAGING DETECTORS - A detector assembly including a plurality of sensors. Each sensor may include a tube having a through-bore therein, a wire arranged within the through-bore of the tube, where the wire is electrically insulated from the tube, and a bracket secured along the entire length of the tube configured to provide rigidity along the length of the sensor. | 2022-01-20 |
20220018980 | METHOD AND SYSTEM FOR DISTRIBUTED FIBRE OPTIC SENSING - Described herein is a method and system for distributed fibre optic sensing in particular across multiple fibre optic ports with multiple corresponding fibre optic paths. In general, the disclosed method and system includes the steps of (a) repeatedly transmitting a train of optical signals through a fibre optic network including a plurality of optical fibres distributed across a geographic area using at least one optical signal transmitter, (b) sequentially distributing optical signals in the train through the plurality of optical fibres via corresponding optical fibre ports using an optical switching arrangement, (c) receiving backscattered optical signals from the plurality of optical fibres, the backscattered optical signals being influenced by disturbances that induce fibre optic sensing signals, including low frequency weight-induced disturbances, (d) demodulating data from the backscattered optical signals, and processing the data to identify at least some of the low-frequency weight-induced disturbances, and/or (e) sensing the backscattered optical signals in a reduced frequency range, thereby reducing the corresponding required sampling rate and increasing the predetermined multiplex or switching ratio or the number of optical fibre ports serviced per optical signal transmitter/receiver. The disclosed method and system may be useful to provide efficient usage of hardware resources. The disclosed method and system may also be useful to detect low frequency weight-induced disturbances for object tracking against high noise clutter in the higher frequency signal bands. | 2022-01-20 |
20220018981 | SYSTEM AND METHOD FOR 3D SEISMIC VELOCITY ESTIMATION - A method is described for estimating seismic velocity from seismic data by training a neural network using a subset of a seismic dataset and the velocity model; estimating a second velocity model using the neural network and a second subset of the seismic dataset; and displaying the second velocity model on a graphical user interface. The method may be executed by a computer system. | 2022-01-20 |
20220018982 | AUTOMATED FAULT UNCERTAINTY ANALYSIS IN HYDROCARBON EXPLORATION - A system includes a processor and a memory. The memory includes instructions that are executable by the processor to access a plurality of seismic images of a subterranean formation in a first geological area. The instructions are also executable to generate a plurality of fault estimates from each of the plurality of seismic images. Further, the instructions are executable to generate a processed seismic image of the first geological area by normalizing and merging the plurality of seismic images and the plurality of fault estimates. Additionally, the instructions are executable to generate a statistical fault uncertainty volume of the first geological area using the processed seismic image. Furthermore, the instructions are executable to control a drilling operation in the first geological area using the statistical fault uncertainty volume of the first geological area. | 2022-01-20 |
20220018983 | METHOD AND DEVICE FOR DETERMINING SONIC SLOWNESS - Sonic logging data including a sonic waveform associated with a plurality of shot gathers is accessed. A transformation operator is applied to the sonic logging data to provide a transformed sonic image, the transformation operator including at least one of a short time average long time average (STA/LTA) operator, a phase shift operator, and a deconvolution operator. A machine learning process is performed using the transformed sonic image to determine a sonic slowness associated with the sonic logging data. The sonic slowness is provided as an output. | 2022-01-20 |
20220018984 | Machine Learning Techniques for Noise Attenuation in Geophysical Surveys - Techniques are disclosed relating to machine learning in the context of noise filters for sensor data, e.g., as produced by geophysical surveys. In some embodiments, one or more filters are applied to sensor data, such a harsh filter determined to cause a threshold level of distortion in measured reflections, a mild filter determined to leave a threshold level of remaining noise signals, or an acceptable filter. In some embodiments, the system trains a machine learning classifier based on outputs of the filtering procedures and uses the classifier to determine whether other filtered sensor data from the same survey exhibits acceptable filtering. This may improve accuracy or performance in detecting unacceptable filtering, in some embodiments. | 2022-01-20 |
20220018985 | WALL SCANNER - A wall scanner that includes a housing, a plurality of sensors, a display, and a control section. The housing includes a handle portion and a body portion. The handle portion is adapted to receive a removable and rechargeable battery pack such as a high-voltage lithium-ion (“Li-Ion”) battery pack. The body portion of the housing encloses the plurality of sensing devices, such as capacitive plate sensors for sensing the presence of a stud behind a surface, a D-coil sensor for identifying the presence of metal behind the surface, and a non-contact voltage sensor. The display is configured to display the location of an object behind the surface in real-time, the depth of an object behind the surface, and whether an object behind the surface is ferrous or non-ferrous. The control section includes actuation devices for controlling the functions and operations of the wall scanner, such as the scanning mode. | 2022-01-20 |
20220018986 | SYSTEM AND METHOD FOR MAPPING AND MONITORING RESERVOIRS BY ELECTROMAGNETIC CROSSWELL AND OPTIMIZING PRODUCTION - A technological solution for locating and evaluating resistive targets in a space between a pair of wellbores, at least one of which includes a metallic casing. The solution includes injecting an electric current into the metallic casing of one of the pair of wellbores to energize the metallic casing as a dipole transmitter and leak the current into a formation to form variable electric fields; detecting inside the other wellbore of the pair, by an electric field receiver, the variable electric fields; and measuring, by the electric field receiver, the variable electric fields as a function of time; and generating a resistivity map of the formation based on the measurements of the variable electric fields. | 2022-01-20 |
20220018987 | PROJECTION METHOD AND PROJECTION SYSTEM - The invention provides a projection method and system. The method includes providing a first sensing group sensing a space and generating a first sensing result to determine whether a user is in an entering or exiting state relative to the space; providing a second sensing group sensing a first or second object in the space according to the first sensing result and generating a second sensing result; and generating a prompt information according to the second sensing result and displaying the prompt information. The system includes a first sensing group, a second sensing group, and a display device. The method and system of the invention sense the space according to the entering and exiting state of the user to effectively reduce the inspection steps of the user for the space, thereby effectively improving the safety of the space, and improving the operating convenience of the user of the space. | 2022-01-20 |