41st week of 2021 patent applcation highlights part 33 |
Patent application number | Title | Published |
20210318349 | TEST TUBE RACK DISPATCHING METHOD, ANALYSIS SYSTEM AND TEST TUBE RACK - A test tube rack dispatching method, a pipeline analysis system and a test tube rack. Said method is applied to a pipeline analysis system. The pipeline system comprises a sample conveying mechanism, at least two test devices and at least two test platforms corresponding to the at least two test devices, the sampling mechanism being connected to the at least two test platforms. Said method comprises: scanning a readable and writable label of a test tube rack placed in the pipeline system, so as to read test mode information corresponding to the test tube rack; and dispatching, by the sample conveying mechanism, the test tube rack to a test platform corresponding to the test mode information, so as to test samples on the test tube rack by a test device corresponding to the test platform. | 2021-10-14 |
20210318350 | AUTOMATIC ANALYZER - In a case where a dispensing tip is imaged from below, liquid attached to the tip falls downward and contaminates an imaging mechanism. An automatic analyzer includes: a buffer that has a hole for holding a tip for dispensing, the hole passing through the tip; a probe for dispensing having a tip to which the tip is attached; an imaging unit that images the tip; and a controller that controls the tip such that the tip is mounted on the probe by pressing the probe against the tip that passes through the hole to be held by the buffer, in which the imaging unit is disposed to image the tip from an upper side to a lower side in a gravity direction. | 2021-10-14 |
20210318351 | METHOD FOR PROVIDING A PROBE DEVICE FOR SCANNING PROBE MICROSCOPY - The invention relates to a method for providing a probe device for scanning probe microscopy, in particular for atomic force microscopy, wherein a scanning probe microscope is used for measuring a sample by means of a tip which is arranged on a cantilever of the probe device and which has a tip geometry. According to the invention, in a step upstream of the manufacturing process producing the tip, the tip geometry is optimized based on a selected tip basic form with regard to defined, required measurement properties, by computer simulating and evaluating the tip geometry, and modifying the tip geometry according to the evaluation with regard to these measurement properties. The invention further relates to a probe device for scanning probe microscopy, in particular for atomic force microscopy, having a cantilever and a tip formed on the cantilever in the nanometer range, with which samples to be measured can be scanned. | 2021-10-14 |
20210318352 | SYSTEM FOR SCANNING PROBE MICROSCOPY APPLICATIONS AND METHOD FOR OBTAINING SAID SYSTEM - The invention relates to a system suitable for its use in scanning probe microscopy, such as tip-enhanced Raman spectroscopy or magnetic force microscopy, that comprises: a tip ( | 2021-10-14 |
20210318353 | SYSTEM AND METHOD OF PERFORMING SCANNING PROBE MICROSCOPY ON A SUBSTRATE SURFACE - The invention is directed at a method of performing scanning probe microscopy on a substrate surface using a scanning probe microscopy system. A probe tip and substrate surface are moved relative to each other in one or more directions parallel to the scanning plane to position the probe tip to a scanning position on the substrate surface with the probe tip; a displacement is measured by an encoder of said probe tip in said one or more directions; and a fiducial pattern is provided fixed relative to the substrate surface, said fiducial pattern having a scannable structure that is scannable by said probe tip and said structure forming a grid of fiducial marks in said one or more dimensions; said grid dimensioned to allow for measuring placement deviations of the probe tip relative to the probe head by identifying one or more fiducial marks in the fiducial pattern. | 2021-10-14 |
20210318354 | ELECTRICAL CONNECTING DEVICE AND INSPECTION METHOD - An electrical connecting device includes a probe head, and probes for measurement and probes for confirmation held by the probe head. The probe head holds the probes for measurement and the probes for confirmation in a state in which the respective tip ends are exposed therefrom. An exposed length from the probe head to the tip end is shorter for the probes for confirmation than for the probes for measurement. | 2021-10-14 |
20210318355 | VERTICAL PROBE HEAD HAVING AN IMPROVED CONTACT WITH A DEVICE UNDER TEST - A probe head for testing a device under test integrated on a semiconductor wafer includes a plurality of contact probes, each having a first end and a second end, and at least one first lower guide and one second lower guide at the first end. The guides are parallel to each other and have a respective plurality of first and second guide holes for slidingly housing the contact probes. At least one third lower guide is substantially parallel to the first lower guide and to the second lower guide and includes a plurality of third guide holes for slidingly housing the contact probes. The guide holes are disposed in a shifted arrangement to eliminate a scrub movement of the first ends of each contact probe of the probe head. | 2021-10-14 |
20210318356 | Modular AMI/AMR In-Ground Meter Box - An AMI/AMR in-ground meter box, including first and second side panels, each having an interior side and an exterior side; and first and second end panels, each having an interior side and an exterior side; wherein each of said side panels and end panels include a generally rectangular planar portion having a top edge, a bottom edge, a first interlocking end having a plurality of male elements and female slots, an arcuate second end having a 90-degree bend which forms a corner of the assembled meter box and terminating in an interlocking end having a plurality of male elements and female slots configured to interlock with paired male elements and female slots in said first interlocking end. | 2021-10-14 |
20210318357 | NON-CONTACT VOLTAGE SENSING SYSTEM - An energy metering system includes a plurality of current sensors suitable to sense current levels in a respective power conductor and each of said plurality of current sensors providing a respective first signal indicating respective the current levels. The energy metering system includes a plurality of non-contact voltage sensors suitable to sense voltage levels in a respective power conductor and each of the plurality of non-contact voltage sensors providing a respective second signal indicating respective the voltage levels. The energy metering system includes a monitoring device that receives each of the respective first signals and receives each of the respective second signals, and the monitoring device provides an indication of whether a circuit breaker has tripped based upon a respective first signal corresponding with one of the power conductors and whether the second signal indicates an insubstantial voltage level for the corresponding one of the power conductors. | 2021-10-14 |
20210318358 | CURRENT SENSOR - A current sensor includes a battery terminal portion that is conductive and is fastened to a battery post that extends along a first direction; a sensor unit that is located side by side with the battery terminal portion along a second direction that intersects the first direction and is electrically connected to the battery terminal portion to detect a current; and a housing that has an insulating property and embeds the sensor unit, in which the battery terminal portion includes a pair of plate-shaped portions, and the pair of plate-shaped portions are embedded in the housing with end portions on the sensor unit side in the second direction spaced apart from each other along the first direction. | 2021-10-14 |
20210318359 | ELECTRIC CIRCUIT ARRANGEMENT AND A METHOD FOR A GALVANICALLY INSULATED, AC/DC SENSITIVE DIFFERENTIAL-CURRENT MEASUREMENT HAVING HIGH RESOLUTION - An electric circuit arrangement and a measuring method for a galvanically insulated, AC/DC sensitive differential current measurement having a high resolution having: a toroid current transformer having at least one secondary winding for detecting a differential current; a driver circuit for powering the secondary winding; a first oscillator circuit for controlling the driver circuit and for generating a time-modulated binary oscillator signal having dwell times in a state 1 and a state 2; a second oscillator circuit for determining the corresponding dwell time in the states 1 and 2 in high resolution by means of a clock signal having a clock rate independent of the oscillator signal; an evaluation device for evaluating the dwell time; and a data interface for outputting a differential-current measuring value; the driver circuit and the second oscillator circuit each being realized as structurally individual, integrated circuits. | 2021-10-14 |
20210318360 | CURRENT METER FOR DETECTING CURRENTS IN ELECTRICAL LINES - A current meter for detecting currents in electrical lines includes: a housing having a plurality of receiving grooves formed on a housing wall, into which receiving grooves an electrical line is in each case insertable from outside the housing; and an arrangement of magnetic field sensors enclosed in the housing. The arrangement of magnetic field sensors detects a magnetic field on electrical lines inserted into the receiving grooves. The housing encloses an interior delimited by the housing wall, inside which interior the arrangement of magnetic field sensors is arranged. | 2021-10-14 |
20210318361 | CURRENT SHUNT PROBE - An isolated differential current shunt measurement probe for a test and measurement system having an isolation barrier between an input side and output side of the probe. The input side is configured to receive a voltage signal across a current shunt connected to a device under test and transmit the voltage signal across the isolation barrier. The output side is configured to receive the voltage signal across the isolation barrier and output the voltage signal to a test and measurement instrument. | 2021-10-14 |
20210318362 | SYSTEMS AND METHODS FOR WEARABLE VOLTAGE SENSING DEVICES - In accordance with the present disclosure, voltage sensing techniques using a voltage sensing device are employed to identify sources of electromagnetic radiation and provide warnings to a user about high levels of electromagnetic radiation. By way of example, the voltage sensing device may be a wearable device and may provide auditory, visual, and tactile alerts to a user. | 2021-10-14 |
20210318363 | Device and Method for Monitoring Power Quality and Performance of Electricity Distribution Components in Electricity Distribution Network - A device and method are provided for monitoring quality and performance parameters of an electricity distribution component in an electricity distribution network and detecting any deviation of operating parameters from the specified regulatory set and enforced limits. The critical and increasing problem is mitigated for the myriad of private domestic and commercial DEG devices being installed and connected to the distribution networks which were not initially designed for, or even not anticipated with, the recent DEG evolution, and the increasing complex electrical components with changing loads and power factors across the distribution network. | 2021-10-14 |
20210318364 | CURRENT SENSOR - A current sensor includes a battery terminal portion that is conductive and is fastened to a battery post; a shunt resistor for current detection, which is formed in a plate shape and is electrically connected to the battery terminal portion; and a circuit board that is formed in a plate shape and is electrically connected to the shunt resistor, in which the shunt resistor is erected on a main surface of the circuit board. With this configuration, since the shunt resistor and the circuit board can be arranged so as not to face each other and not confront each other, the influence of heat generated by the shunt resistor can be suppressed. | 2021-10-14 |
20210318365 | Power Detector - A power detector includes a detection circuit and a bias circuit. The detection circuit is used to receive an input signal and output a power indication signal. The bias circuit includes a first impedance unit, a second impedance unit and a transistor. The transistor includes a first terminal and a control terminal coupled to the first impedance unit, and a second terminal. The second impedance unit is coupled between the first terminal of the transistor and an output terminal of the bias circuit, or between the second terminal of the transistor and a second terminal of the bias circuit. The output terminal of the bias circuit is coupled to an input terminal of the detection circuit, and is used to output a bias signal. | 2021-10-14 |
20210318366 | MANAGING OUTAGE DETECTIONS AND REPORTING - Systems and methods are disclosed for detecting node outages in a mesh network. A tracking node in the mesh network detects a set of signals originating from a tracked node in the mesh network. The set of signals includes beacons or communication messages transmitted by the tracked node. The tracking node determines that a threshold number of the beacon intervals have passed since receiving the most recent signal from the tracked node. The tracking node performs outage validation based on data received from another node in the mesh network and updates the status of the tracked node. Based on the updated status, the tracking node outputs a ping to the tracked node requesting a response to the ping. When the response to the ping is not received from the tracked node, the tracking node transmits an outage alarm message to a next topologically higher layer of the mesh network. | 2021-10-14 |
20210318367 | DSP-BASED ELECTRICAL ENERGY METERING DEVICE - A DSP-based electrical energy metering device is provided. After determining a current application mode, a DSP controller compares an execution rate of each computing task with a corresponding preset comparison value, and outputs a first condition value to a condition general register based on a comparison result, so as to control an execution rate of each computing task in the DSP controller. A jump condition controller outputs a second condition value corresponding to the current application mode to the condition general register based on a change in the execution rate of each computing task compared with an execution rate of the computing task in a previous application mode, so that all computing tasks are executed. An adaptive word length controller adjusts an effective bit width of the electrical signal read by a data general register from a data memory at execution rates of different computing tasks. | 2021-10-14 |
20210318368 | CALIBRATION OF THE EXTERNAL RESISTANCE VALUE IN THE POWER SOURCING EQUIPMENT OF A POE SYSTEM - A calibration operation determines a resistance of a sense resistor in a POE system. A voltage measurement is taken with a first current flowing through the sense resistor. A second voltage measurement is taken with a second current flowing through the resistor. A resistance value of the sense resistor is determined based on a voltage difference between the first and second voltage measurements and a current difference between the first current and the second currents. | 2021-10-14 |
20210318369 | AN IMPROVED MEASUREMENT DEVICE FOR ANTENNA SYSTEMS - A measurement device for measuring performance of at least one antenna system in a first frequency band and in a second frequency band. The measurement device including an outer chamber having inwardly radio frequency reflective walls configured to enclose the antenna system, an inner chamber deployable inside the outer chamber, the inner chamber having radio frequency absorptive walls configured to enclose the antenna system, a first test antenna arrangement arranged inside the outer chamber and configured for a measurement operation in the first frequency band, and a second test antenna arrangement arranged inside the inner chamber and configured for a measurement operation in the second frequency band, thereby enabling measuring performance of the antenna system in a reflective radio frequency environment by the first test antenna arrangement and measuring performance in an essentially anechoic radio frequency environment by the second test antenna arrangement. | 2021-10-14 |
20210318370 | MEASUREMENT AND ADJUSTMENT OF A CHARGE OF A WORKPIECE - An apparatus, system, and method for managing an electrostatic charge of a workpiece are disclosed. The method comprises coupling an electrostatic voltmeter to a conductor, coupling a charge-adjustment system to the conductor, and coupling the conductor to the workpiece. A level of charge in the workpiece is adjusted, via the conductor, with the charge-adjustment circuit and a voltage of the workpiece is monitored, via the conductor, with the electrostatic voltmeter. A controller may be used to adjust the charge on the workpiece based upon the monitored voltage. | 2021-10-14 |
20210318371 | Integrated Circuit Having Receiver Jitter Tolerance ("JTOL") Measurement - An integrated circuit capable of on-chip jitter tolerance measurement includes a jitter generator circuit to produce a controlled amount of jitter that is injected into at least one clock signal, and a receive circuit to sample an input signal according to the at least one clock signal. The sampled data values output from the receiver are used to evaluate the integrated circuit's jitter tolerance. | 2021-10-14 |
20210318372 | Apparatus for Measuring Insulation Resistance - The present invention relates to an apparatus capable of measuring an insulation resistance of a battery, and according to the apparatus capable of measuring the insulation resistance of the present invention. A voltage measurement unit may measure a voltage with respect to a potential of a negative terminal of a battery rather than the ground, and thus parameters requiring a high precision may be measured using one device, thereby reducing cost, and, because a first sensing substrate and a second sensing substrate are separated, different potentials may be used as the ground, thereby securing a better insulation performance between the first sensing substrate that is an HV side and the second sensing substrate that is an LV side. | 2021-10-14 |
20210318373 | METHOD AND SYSTEM FOR ONLINE MONITORING OF HEALTH STATUS OF INSULATED-GATE BIPOLAR TRANSISTOR MODULE - A method and a system for online monitoring of a health status of an insulated-gate bipolar transistor (IGBT) module are provided, which belong to the field of IGBT status monitoring. In order to overcome the inability to real-time monitor health statuses of existing IGBT modules, the method of the disclosure includes the following steps. A current sensor is used to measure a collector current of each IGBT module. A collected current value is substituted into a simulation model to obtain a current imbalance rate. A failure module is located according to the current imbalance rate and temperature to achieve the objective of monitoring an IGBT health status. | 2021-10-14 |
20210318374 | ELECTRONIC DEVICE - An electronic device includes a first substrate having a first bonding region, a first circuit, a second circuit, a third circuit, and a plurality of first conductive contacts. The first and second circuit are located at a first edge and a second edge of the first bonding region, the third circuit is located between the first and the second circuits. A second substrate having a second bonding region corresponding to the first bonding region in position and a fourth circuit, a fifth circuit, a sixth circuit, and a plurality of second conductive contacts. When the first substrate is bonded with the second substrate, the first circuit, the second circuit, the third circuit, the fourth circuit, the fifth circuit, and the sixth circuit form a loop, and the first and second conductive contacts are electrically connected to a plurality of signal circuits. | 2021-10-14 |
20210318375 | CIRCUIT AND METHOD TO DETECT DEFECTS IN A POWER SWITCHING DEVICE - A circuit and method for detecting a failure of a switching power device is disclosed. The circuit and method utilize a Kelvin connection of a four-terminal configuration of the switching power device to sense a resistance of at least one wire-bond. The resistance corresponds to a defect or defects in the at least one wire-bond and so it can be used to detect a failure before damage occurs. A threshold used for detecting the failure can be adjusted to accommodate variations in the switching power device and/or the application in which it is being used. Additionally, the failure detection is carried out at a period after the switching power device is turned ON to prevent switching transients from affecting the detection. | 2021-10-14 |
20210318376 | TEST CIRCUIT AND ELECTRONIC DEVICE - A test circuit testing a storage circuit and including a controller, a pattern-generator circuit, a comparing circuit, and a first register is provided. The controller is configured to generate a plurality of internal test signals. The pattern-generator circuit writes test data into the storage block of the storage circuit according to the internal test signal and reads the storage block to generate read data. The comparing circuit compares the test data and the read data to generate a test result. The first register stores the test result. The controller determines whether the storage circuit is working normally according to the test result stored in the first register. | 2021-10-14 |
20210318377 | APPLICATIONS OF ADAPTIVE MICROELECTRONIC CIRCUITS THAT ARE DESIGNED FOR TESTABILITY - The performance of a microelectronic circuit can be configured by making an operating parameter assume an operating parameter value. An operating method comprises selectively setting the microelectronic circuit into a test mode that differs from a normal operating mode of the microelectronic circuit, and utilizing said test mode to input test input signals consisting of test input values into one or more adaptive processing paths within the microelectronic circuit. An adaptive processing path comprises processing logic and register circuits configured to produce output values from input values input to them. The performance of such an adaptive processing path can be configured by making an operating parameter assume an operating parameter value. The method comprises making said one or more adaptive processing paths form test output values on the basis of the respective test input values input to them, and forming a set of test output signals by collecting said test output values given by said one or more adaptive processing paths. The method comprises examining said set of test output signals, and forming a test result on the basis of said examining, and using said test result to select and set an operating parameter value for said operating parameter. | 2021-10-14 |
20210318378 | DYNAMIC GENERATION OF ATPG MODE SIGNALS FOR TESTING MULTIPATH MEMORY CIRCUIT - A circuit includes a multipath memory having multiple cells and a plurality of sequence generators. Each sequence generator of the plurality of sequence generators drives one separate cell of the multiple cells via an automatic test pattern generator (ATPG) mode signal for each cell. The ATPG mode signal for each cell is configured via a sequence configuration input that controls a timing sequence to test each cell. The state of the ATPG mode signal of each cell selects whether test data or functional data is output from the respective cell. | 2021-10-14 |
20210318379 | SYSTEM AND METHOD FOR OPTIMIZING FAULT COVERAGE BASED ON OPTIMIZED TEST POINT INSERTION DETERMINATIONS FOR LOGICAL CIRCUITS - The methods and systems are directed to automated computer analysis and machine learning. Specifically, the systems and methods for using machine learning to generate fault prediction models and applying the fault prediction models to logical circuits to optimize test point insertion determinations and optimize fault detection in the logical circuit. Disclosed are methods and systems that that generates training data from training circuits (and optionally generate training circuits), trains a learning segment (which may include an artificial neural network (ANN)) using the training data. The learning segment (once trained) generates fault prediction models to predict the quality of a TP inserted on a given circuit location and optimize TPI for a given circuit. The methods and systems described provide computational (CPU/processing) time advantages and precision over conventional methods. | 2021-10-14 |
20210318380 | DETECTION CIRCUIT, DETECTION METHOD AND UNINTERRUPTIBLE POWER SYSTEM USING SAME - A detection circuit is electrically connected with a static transfer switch. The static transfer switch includes a silicon controlled rectifier. The detection circuit includes a high-pass filter, a low-pass filter, an absolute value circuit and a determination unit. After the high-pass filter filters off a low-frequency component of a terminal voltage between the first terminal and the second terminal of the static transfer switch, a first signal is generated. After a high-frequency component of the first signal is filtered off by the low-pass filter, a second signal is generated. The second signal is converted into an absolute value signal by the absolute value circuit. If no pulse signals are contained in the absolute value signal, the determination unit determines that the static transfer switch is in an abnormal on condition. | 2021-10-14 |
20210318381 | INFORMATION HANDLING SYSTEM CAPACITIVE SENSING GAUGE AND INDICATOR - A battery charge state indicator presents an information handling system battery charge state with an illumination element at a housing side surface in response to end user proximity detected at both first and second capacitive sensor electrodes disposed at the side surface. The capacitive sensor electrodes are supported at a nonconductive material, such as a plastic palm rest covered by carbon fiber material, to provide a proximity detection path, and are grounded to an outer surface of the information handling system housing to reduce false detection induced by end user grasp of the information handling system housing. | 2021-10-14 |
20210318382 | ELECTRICAL DEVICE POWER MANAGEMENT - An electrical device includes a memory storing a value indicative the remaining available rated capacity of one or more batteries. The stored value is changed in use to reflect reducing capacity. The initial stored value is chosen so that there is a very high (e.g. >99.9%) confidence that the one or more batteries will provide at least the capacity indicated by the initial stored value. This reduces the chance of failure during emergency procedures. The one or more batteries may be integral to the electrical device. An override facility is provided. | 2021-10-14 |
20210318383 | LIFETIME BATTERY TRACKING USING A WIRELESS INTERFACE - Methods, apparatuses, systems, and computer program products for lifetime battery tracking using a wireless interface are disclosed. During production and assembly of a battery pack, the location of a battery module in a production line is tracked using detected signal strengths from a wireless transmitter of a battery module monitoring system. During the life of the battery module, the battery module monitoring system provides battery usage data that can be combined with vehicle data for diagnostic analysis. | 2021-10-14 |
20210318384 | TESTING SYSTEM FOR SAFE OPERATING WINDOW OF LITHIUM-ION BATTERY IN SQUEEZED STATE AND TESTING METHOD THEREOF - The present invention discloses a testing method and a testing system for a safe operating window of a lithium-ion battery in a squeezed state. The testing system includes a mechanical loading device, a heating device, a lithium-ion battery tester and a measuring device. By comparing the influence of a combined use of two or more of mechanical abuse with two different fixed variables, thermal abuse, and electrical abuse on critical conditions of thermal runaway of the lithium-ion battery, the influence of the different forms of abuse on the critical conditions of thermal runaway of the lithium-ion battery can be compared qualitatively and quantitatively, and these data can also be used to determine the safe operating windows of the lithium-ion battery under different abuse conditions. | 2021-10-14 |
20210318385 | TERMINAL APPARATUS FOR BATTERY MODULE ASSEMBLY - A terminal apparatus detachably mounted on a battery module assembly made up of module units which are formed as aggregates of a plurality of cells and accommodated in a battery case through its open end. The apparatus has a computer which is programed to acquire state of the battery module assembly, to communicate acquired state of the battery module assembly to outside, and to connect or disconnect output of the battery module assembly to or from a load such as a vehicle electric motor, a factory electrical machine tool, home lighting fixtures and a construction machine electric motor by means of switch. The computer is further programed to detect change of the load and to switch output of the battery module assembly in accordance with changed load when the change of the load is detected. | 2021-10-14 |
20210318386 | MANAGEMENT DEVICE AND POWER SUPPLY SYSTEM - Provided is a controller configured: to calculate, among voltages detected from a plurality of cells, a voltage difference between the voltage detected from one cell of the plurality of cells, the one cell to be detected, and a representative voltage at each of a first time and a second time, the representative voltage based on the voltage detected from at least one cell of the plurality of cells, the at least one cell to be compared; and when a discrepancy between the voltage difference at the first time and the voltage difference at the second time is equal to or more than a threshold, to determine that an abnormality has occurred in the one cell to be detected. The controller refers to a state-of-charge versus open-circuit-voltage (SOC-OCV) curve of the one cell to be detected in accordance with a state-of-health (SOH) of the one cell to be detected, so as to estimate an SOC as initial capacitance reference of the one cell to be detected in correspondence to the voltage detected from the one cell to be detected. The controller introduces a linear function using an SOC as initial capacitance reference as an input variable, using an OCV as an output variable, and having a predetermined inclination, and applies the SOC as initial capacitance reference of the one cell to be detected that the controller has estimated to the linear function, so as to derive an OCV. Then, in place of the voltage detected from the one cell to be detected, the controller uses the OCV that the controller has derived, so as to calculate the voltage difference at the first time and the voltage difference at the second time. | 2021-10-14 |
20210318387 | BATTERY MONITORING DEVICE - In a battery monitoring device, an amplifier circuit outputs an amplified differential voltage value obtained by amplifying a differential voltage value between a first voltage value of a battery and a reference voltage value, and outputs an amplified differential voltage value obtained by amplifying a differential voltage value between a second voltage value of the battery and the reference voltage value. A CPU calculates an internal resistance value of the battery based on the amplified differential voltage value outputted from the amplifier circuit, the amplified differential voltage value outputted from the amplifier circuit, a current value of a constant current adjusted by a constant current circuit, and a current value of a constant current adjusted by the constant current circuit. The reference voltage value is a voltage value between the first voltage value and the second voltage value. | 2021-10-14 |
20210318388 | Battery Management Apparatus - A battery management apparatus for changing a control condition according to a degradation pattern in a charge situation of a battery cell. Since not only the degradation degree of the battery cell but also the degradation acceleration degree of the battery cell is estimated, the present degradation state of the battery cell may be more accurately estimated, and the future degradation state of the battery cell may also be predicted more accurately. | 2021-10-14 |
20210318389 | BATTERY MONITORING SYSTEM AND SEMICONDUCTOR DEVICE - A battery monitoring system includes a plurality of battery cells connected in series; a cell voltage measurement circuit for measuring a voltage of the battery cells; a first terminal connected to the cell voltage measurement circuit; a second terminal isolated from the cell voltage measurement circuit; a plurality of protection elements each corresponding to each of the battery cells; and a protection circuit connected to the second terminal for discharging an electric current from the protection elements through the second terminal. | 2021-10-14 |
20210318390 | LINE VERIFICATION DEVICE, AND LINE VERIFICATION METHOD - Connection normality check of a pair of electric wires is simplified. A circuit check device | 2021-10-14 |
20210318391 | PROBABILISTIC DETERMINATION OF TRANSFORMER END OF LIFE - A method of estimating future aging of a transformer includes generating probabilistic models of factors that affect effective aging of the transformer, generating probabilistic profiles of the factors that affect effective aging of the transformer based on the probabilistic models, generating expected hot spot profiles from the probabilistic profiles, simulating a plurality of aging scenarios of the transformer based on the expected hot spot profiles and ambient temperature profiles, and estimating future aging of the transformer from the plurality of aging scenarios. | 2021-10-14 |
20210318392 | Device Comprising Two Voltage Domains and Method - A device including a first voltage domain and a second voltage domain is provided, the voltage domains being separated by an isolation barrier. In addition, the device includes a scratch detection circuit including a first and a second electrode at a distance of less than 2 μm. | 2021-10-14 |
20210318393 | DIFFERENTIAL PROTECTION SCHEME - A system and method for differential protection is provided. Aspects includes determining a first current value associated with a first current transformer coupled to a first location in a differential protection zone, the first current transformer having a first transformer ratio, determining a second current value associated with a second current transformer coupled to a second location in the differential protection zone, the second current transformer having a second transformer ratio, and determining, by a controller, a type of fault associated with the differential protection zone based on the first current value and the second current value. | 2021-10-14 |
20210318394 | MAGNETORESISTANCE EFFECT ELEMENT - A magnetoresistance effect element includes a first ferromagnetic layer, a second ferromagnetic layer, a nonmagnetic layer that is disposed between the first ferromagnetic layer and the second ferromagnetic layer, and an insertion layer that is disposed at least one of a position between the first ferromagnetic layer and the nonmagnetic layer and a position between the second ferromagnetic layer and the nonmagnetic layer, in which the nonmagnetic layer is composed of an oxide containing Mg and Ga, and the insertion layer is a ferromagnetic component containing Ga. | 2021-10-14 |
20210318395 | MAGNETORESISTIVE ELEMENT - A magnetoresistive element of the present disclosure has at least a layered structure composed of a magnetization fixed layer, an intermediate layer and a storage layer, wherein a metal layer is formed on or above the layered structure; an orthogonal projection image of the layered structure with respect to the metal layer is contained in the metal layer; and assuming that an oxide formation Gibbs energy of a metal atom constituting the metal layer at a temperature T (° C.) of 0° C. or higher and 400° C. or lower is E | 2021-10-14 |
20210318396 | MAGNETIC SENSOR - A magnetic sensor includes a base material, a plurality of magnets provided at predetermined spacing on the base material, and a plurality of magnetic detection parts respectively provided close to the plurality of magnets. Each of the plurality of magnetic detection parts outputs a signal in accordance with change in the magnetic field accompanying deformation of the base material. | 2021-10-14 |
20210318397 | MRI SURGICAL SYSTEMS INCLUDING MRI-COMPATIBLE SURGICAL CANNULAS FOR TRANSFERRING A SUBSTANCE TO AND/OR FROM A PATIENT - A cannula for transferring a substance to and/or from a patient includes a rigid, tubular support sleeve, an inner sleeve, a transfer tube, and a conformal polymeric sleeve. The support sleeve defines a support sleeve lumen extending from a first opening at a proximal end of the support sleeve to a second opening at a distal end of the support sleeve. The support sleeve includes a rigid, MRI-compatible material. The inner sleeve is disposed in the support sleeve lumen and extends beyond the distal end of the support sleeve to a distal end of the inner sleeve. The inner sleeve defines an inner sleeve lumen. The transfer tube is disposed in the inner sleeve lumen and extends to or beyond the distal end of the inner sleeve to a distal end of the transfer tube. The transfer tube defines a transfer tube lumen terminating at an opening at the distal end of the transfer tube. The conformal polymeric sleeve surrounds at least a portion of the support sleeve and at least a portion of the inner sleeve. The conformal polymeric sleeve includes a transitional section extending from the distal end of the support sleeve and over the inner sleeve in a direction toward the distal end of the inner sleeve. The transitional section tapers inwardly in the direction toward the distal end of the inner sleeve. | 2021-10-14 |
20210318398 | MULTI-ROW ARRAY RF COIL WITH MINIMIZED COUPLINGS USING BIRDCAGE COILS - Various embodiments of the present disclosure are directed towards a magnetic resonance imaging (MRI) radio frequency (RF) coil array configured to operate in at least one of a transmit mode or a receive mode on a cylindrical former. The MRI RF coil array includes at first row of RF coil elements. Each row of RF coil elements includes at least three RF coil elements that circumferentially surround a cylindrical axis. The MRI RF coil array also includes a first birdcage coil that circumferentially surrounds the first row of RF coil elements. Each RF coil element of the first row is configured to inductively couple to the first birdcage coil and to each other RF coil elements. The first birdcage coil has an impedance configured to negate inductive coupling between the RF coil elements of the first row. | 2021-10-14 |
20210318399 | METHOD AND SYSTEM FOR REDUCING MAGNETIC FIELD INSTABILITIES IN A MAGNETIC RESONANCE SYSTEM - A method, device, and system for reducing inhomogeneity in an imaging magnetic field during magnetic resonance imaging is described. The method includes generating a corrective magnetic field during imaging, the corrective magnetic field having a first magnetic field component and a second magnetic field component with a phase separation therebetween. The first and second components are generated according to a stability parameter decomposed from a stability field that correct an instability identified within the imaging magnetic field. | 2021-10-14 |
20210318400 | MRI Shield - A multi-layered shielding apparatus for reducing the heating of an implanted device within a patient during an MRI scan is disclosed. The shield comprises four internal layers circumferentially surrounded by a waterproof fabric pouch for maintaining composure of the shield and providing a comfortable interface for the patient. The second layer is a thin high conductive energy permeable layer for absorbing a substantial amount of RF energy. The first and third layers are thick low conductive energy absorbent layers that surround the second layer to absorb the RF currents produced by the interaction between the RF energy and the high conductive layer. The fourth layer is a nonconductive polymer layer for insulating the human tissue from any RF currents produced among the other layers. | 2021-10-14 |
20210318401 | Probe for Operando In Situ Electrochemical Nuclear Magnetic Resonance Spectroscopy - Electrochemical devices with metal casings have been considered incompatible with nuclear magnetic resonance (NMR) spectroscopy because the oscillating magnetic fields (“rf fields”) responsible for excitation and detection of NMR active nuclei do not penetrate metals. According to the present invention, rf fields can still efficiently penetrate into nonmetallic layers of electrochemical cells (such as a coin cell battery configuration) provided the magnetic field is oriented tangentially to the electrochemical cell electrodes in a “skimming” orientation. As an example, noninvasive high field in situ | 2021-10-14 |
20210318402 | DEVICE AND METHOD FOR NUCLEAR MAGNET RESONANCE SPECTROSCOPY - A device for NMR spectroscopy includes a magnet arrangement, configured to produce a magnetic probe field within a magnet field of view external to the magnet arrangement. In a embodiment, the device includes a coil arrangement, configured to generate an electromagnetic excitation field within a coil field of view and a controller, configured to control the coil arrangement. The device includes a magnet adjustment arrangement, configured and arranged to modify at least one parameter of the magnet arrangement to change a spatial position of the magnet field of view. | 2021-10-14 |
20210318403 | MAGNETIC RESONANCE IMAGING BASED ON TRANSIENT RESPONSE SIGNALS - A method for magnetic resonance imaging (MRI) comprises applying a consecutive series of MRI sequences to a target volume (V) according to experimental settings (TR, α, β). A discrete sequence of transient response signals (Sn, Sn+1,Sn+2) is measured and fitted to a fit function (F) that is continuously dependent on a sequence number (n) of the respective MRI sequence (Pn) and corresponding response signal (Sn). A shape of the fit function is determined according to an analytically modelled evolution by the experimental parameters (TR, α, β) as well as variable intrinsic parameters (r,λ3, φ, δ) to be fitted. For example, the model is based on an equivalent harmonic oscillator. The intrinsic parameters of the fit function can be related to the intrinsic properties (PD,T1,T2) of the spin systems and used for imaging the target volume (V). Various optimizations of contrast can be achieved by tuning the experimental settings according to the model. | 2021-10-14 |
20210318404 | ELECTRIC FIELD PROBE AND MAGNETIC FIELD PROBE CALIBRATION SYSTEM AND METHOD BASED ON MULTIPLE COMPONENTS - The present application discloses calibration system and method for an electric field probe and a magnetic field probe based on multiple components. The system includes a microstrip line calibration assembly, a clamp, a vector network analyzer and a data processing unit; two groups of microstrip lines included in the microstrip line calibration assembly can be distributed on different routing layers of the same PCB board or on independent PCB boards; the first group of microstrip lines is single microstrip lines or differential lines under common mode excitation, which are used to generate a main component H | 2021-10-14 |
20210318405 | ACTIVE MARKER DEVICE AND METHOD OF DESIGN THEREOF - An active marker device, and method of design thereof, for use in a motion tracking system are provided. In one arrangement, the device comprises a mounting body comprising a mounting surface. A plurality of light emitting units are mounted on respective mounting portions of the mounting surface. A control system controls the plurality of light emitting units such that light is emitted simultaneously from a selected subset of light emitting units. A plurality of optical elements are mounted on the mounting surface. Each optical element covers a different one of the light emitting units and is configured so that an inner surface of the optical element is separated from an outer surface of the light emitting unit. Each optical element redirects a portion of light emitted by the light emitting unit covered by the optical element to be more parallel to the mounting portion of the light emitting unit. | 2021-10-14 |
20210318406 | ACOUSTIC VECTOR SENSOR - An acoustic vector sensor and a method of detecting an acoustic vector are described. An object suspended in the fluid medium by a non-contact support structure. The object and the non-contact support structure are configured so that the object moves in response to any disturbance of the fluid by an acoustic wave; The non-contact support structure of the object comprises a plurality of solenoids that each produce a magnetic field in a fluid medium. A measurement measures movement of the object. A processing device determines an acoustic intensity vector of the acoustic wave based on the measured movement of the object. | 2021-10-14 |
20210318407 | USER EQUIPMENT AND CONTROL METHOD - A user equipment comprises a transmitter configured to transmit a signal to a base station apparatus; a controller configured to determine whether an environment to the base station apparatus is a line of sight (LOS) environment. The controller changes an operation according to the determined environment, or the transmitter transmits to the base station apparatus information indicating the determined environment. | 2021-10-14 |
20210318408 | ELECTRONICALLY ALIGNED WIDEBAND TRACKING MODULATOR SYSTEM - An electronically aligned wideband tracking modulator system is described. The wide band tracking modulator system comprises a waveguide coupled to an antenna. The wide band tracking modulator system also comprises waveguide tuning circuitry configured to convert RF energy from a waveguide of the wideband tracking modulator system into an RF signal that can be processed by the waveguide tuning circuitry. The waveguide tuning circuitry is also configured to shift a phase of the RF signal. The waveguide tuning circuitry is further configured to convert the phase-shifted RF signal into phase-shifted RF energy and return the phase-shifted RF energy to the waveguide to electrically align the wideband tracking modulator system. | 2021-10-14 |
20210318409 | APPARATUS AND METHOD FOR ZONE-BASED POSITIONING - An apparatus, and method of operating the same, include a system for indoor positioning and localization. The apparatus includes a first beacon having a beacon optical detector to receive an optical signal, and a beacon microcontroller. The apparatus includes a zone-positioning unit (ZPU) having an optical source configured to transmit the optical signal, and a ZPU microcontroller. The beacon microcontroller is configured to identify and decode the optical signal after receipt by the beacon optical detector to determine data related to a position of the ZPU. The beacon microcontroller is further configured to wirelessly communicate with the ZPU microcontroller to convey information to the ZPU including the data related to a position of the ZPU and a known position of the first beacon. The ZPU microcontroller is configured to determine a position of the ZPU based on the information received from the first beacon. | 2021-10-14 |
20210318410 | Single Channel Dual Orthogonal Linear Polarization Array - A radar system includes an electronically scanned array of dual orthogonal linearly polarized radiating elements. Each of the radiating elements is fed by a switch driven by a radar processing unit. The switch successively places each radiation element in a vertically polarized configuration and horizontally polarized configuration so that the antenna can transmit and receive both vertically and horizontally polarized images within the radar epoch/pulse timing sequence of the radar system. The vertically polarized image and horizontally polarized image are sufficiently close in time to be collated to form a multi-dimensional image. The switch may be driven at rates other than the radar system clock as dictated by algorithms for detecting weather related threats. | 2021-10-14 |
20210318411 | RADAR SENSOR - A vehicular system includes a body panel having an aperture and a radar unit at least partially aligned with the aperture. The radar unit includes a housing encapsulating a printed circuit board operable to generate radar waves. The housing includes a first wall through which the radar waves are directed. The first wall of the housing is visible within the aperture and the body panel does not extend across the first wall. | 2021-10-14 |
20210318412 | APPARATUS AND METHOD FOR PROCESSING RADAR DATA AND RADAR SYSTEM - The processing of radar data of a radar sensor. By adaptively adjusted assignment of the radar data to a radar cluster, the volume of radar data of the radar sensor is able to be reduced. The radar data are assigned to an already existing radar cluster, if a suitable association is detected between the radar data of the radar sensor and an already existing radar cluster. Otherwise, a new radar cluster may be created with the radar data. | 2021-10-14 |
20210318413 | APPARATUS AND METHOD OF TWO-STAGE SIGNAL PROCESSING IN A RADAR SYSTEM - A novel and useful two-stage radar return data processing mechanism for use in FMCW radar systems that divides the conventional frame into two portions. Two different frames are transmitted rather than one. The frames are transmitted consecutively one after the other. A low resolution ‘coarse’ frame is first transmitted that is fully processed in real time. Based on the results of the processing of the coarse frame, a plurality of targets of interest (TOIs) in the scene representing a subset of the received data is determined. Then a longer high-resolution ‘fine’ frame is transmitted and processed using the information obtained in the previous coarse fame. Using the TOI information obtained in the previous coarse frame, only a subset of the received data is processed. The non-processed portion is assumed to contain non-interesting information and is discarded or ignored thereby significantly reducing processing time. | 2021-10-14 |
20210318414 | Range Doppler Consistency Check for Radar Ghost Target Detection - Systems, apparatuses, and methods to response to distinguish a ghost target from an actual target based on radar signals and ranges determined from the radar signals. In particular, the disclosure provides an intrusion detection system receiving ranges and velocities for targets detected based on radar signals, determining a potential ghost target from the received velocities and confirming the potential ghost target based on estimated ranges and perturbations of the vehicle speed. | 2021-10-14 |
20210318415 | VIRTUAL REALITY POSITIONING DEVICE, VIRTUAL REALITY POSITIONING SYSTEM, AND MANUFACTURING METHOD OF VIRTUAL REALITY POSITIONING DEVICE - A virtual reality positioning device including a casing, a plurality of lenses, and a plurality of optical positioning components is provided. The casing has a plurality of holes. The lenses are installed in the holes, respectively, where a field angle of each of the lenses is greater than or equal to 120 degrees and less than or equal to 160 degrees, and the lenses include convex lenses or Fresnel lenses. The optical positioning components are installed in the casing and aligned to the lenses, respectively. In addition, a virtual reality positioning system and manufacturing method of a virtual reality positioning device are provided. | 2021-10-14 |
20210318416 | SENSOR AND SENSOR SYSTEM - A sensor includes: an emitter configured to scan a beam, as an observation wave, in a scanning direction while changing an emission direction of the beam by a predetermined angle; a controller programmed to control the emitter such that a beam width, which is an index indicating a spread of the beam in the scanning direction, is greater than the predetermined angle; and an estimator configured to estimate a representative point associated with a target object, from a plurality of observation points respectively corresponding to a plurality of the beams applied to the target object. | 2021-10-14 |
20210318417 | LIGHT DETECTION DEVICE - A light detection device includes a first photodiode, a second photodiode connected in series to the first photodiode, a first light source configured to output first pulsed light to which the first photodiode is sensitive, and a signal output unit configured to output a current as a detection signal, the current that flow through the second photodiode. | 2021-10-14 |
20210318418 | Emitters behind display - An optoelectronic device includes a display, including a first substrate, which is transparent to optical radiation at a given wavelength, and a first array of display cells including pixel circuit elements disposed on the first substrate at a first pitch, with gaps of a predefined size between the pixel circuit elements. An emitter array includes a second substrate, parallel and in proximity to the first substrate, and a second array of emitters, which are disposed on the second substrate at a second pitch that is different from the first pitch, and which are configured to emit optical radiation at the given wavelength toward the first substrate. Control circuitry is configured to identify the emitters that are aligned with the gaps between the pixel circuit elements and to selectively drive the identified emitters to emit the optical radiation through the gaps. | 2021-10-14 |
20210318419 | LIDAR INTENSITY CALIBRATION - Aspects of the present disclosure involve a vehicle computer system comprising a computer-readable storage medium storing a set of instructions, and a method for light detection and ranging (Lidar) intensity calibration. The method includes collecting a data set comprising a plurality of raw intensity values output by a channel of a Lidar unit at a particular power level from among multiple power levels at which the channel is capable of operating. The method further includes using a linear model to compute a calibration multiplier and a bias value for the particular power level of the channel. During operation of the vehicle, calibrated intensity values are determined by applying the linear model to subsequent raw intensity values output by the channel at the particular power using the determined calibration multiplier and bias value. | 2021-10-14 |
20210318420 | ULTRASONIC SENSORS FOR WORK MACHINE OBSTACLE DETECTION - A work machine includes a frame, a blade, a sensor assembly, and an ultrasonic sensor. The frame includes a first portion and a second portion configured to pivot with respect to the first portion for steering the work machine. The blade is attached to the second portion of the frame. The sensor assembly is positioned on the work machine and configured to sense data for detection of obstacles within a first area around the work machine. The ultrasonic sensor is attached to the second portion of the frame and is configured to sense data for detection of obstacles within a second area around the work machine, the second area outside the first area when the second portion is in an articulated position with respect to the first portion. | 2021-10-14 |
20210318421 | SONAR APPARATUS, TARGET VELOCITY DISPLAY METHOD, AND NON-TRANSITORY MEDIUM - A processor of a sonar system extracts a signal in a predetermined time range from a signal received by an acoustic array, calculates a correlation value for a signal waveform extracted, detects a peak value of the correlation value, calculates an integrated value by performing time-integration of a square of the correlation value, obtains a target velocity based on the peak value and the integrated value, and displays the target velocity on a display apparatus. | 2021-10-14 |
20210318422 | METHOD AND APPARATUS FOR DETECTING SIGNAL PROPAGATION TYPE - The present invention relates to a method and apparatus for detecting the type of signal propagation, the method comprising: calculating a plurality of similarity values when a location base station in an ultra-wideband location system currently receives a pulse response from a location tag, wherein each of the similarity values represents the degree of similarity between the currently received pulse response and one of a plurality of reference pulse responses, and the plurality of reference pulse responses are pulse responses from at least one location tag that were previously received by the location base station where the type of signal propagation between the location base station and the at least one location tag is a specific type of signal propagation; and determining, based on the plurality of similarity values, a current type of signal propagation between the location base station and the location tag. The method and apparatus can be used to detect the type of signal propagation between the location base station and the location tag in the UWB location system. | 2021-10-14 |
20210318423 | Proximity Detection Using Calculated Voltage Standing Wave Ratio Readings - The present disclosure describes methods, devices, systems, and procedures for detecting a proximity of an object ( | 2021-10-14 |
20210318424 | Radar Detection of Moving Object with Waveform Separation Residual - A multiple input multiple output (MIMO) radar system for detecting a moving object is based on an explicit signal model. The explicit signal model accounts for waveform separation residuals by relating measurements of the virtual array to an auto-term including a Kronecker product of object-receiver signatures and transmitter-object signatures; and a cross-term including a Kronecker product of object-receiver signatures and transmitter-object residual signatures. The radar system uses a spatial MIMO object detector that is based on the explicit signal model to detect the moving object. | 2021-10-14 |
20210318425 | APPARATUS OF MULTIPLE TARGETS MANAGEMENT FOR MULTISTATIC PCL BASED TARGET LOCALIZATION - This application relates to a passive coherent location (PCL) system. In one aspect, the PCL system includes a signal measurement device configured to receive a plurality of signals from a plurality of illuminators and generate an In-phase signal and a Quadrature signal corresponding to each illuminator using the received signals. The PCL system also includes a signal processing device configured to detect a first target using the In-phase and Quadrature signals and measure a bistatic range of the first target and a bistatic velocity of the first target to generate a plurality of pieces of line track information corresponding to the first target. The PCL system further includes a locating device configured to generate target track information of the first target using the line track information and predict a position vector and a velocity vector of the first target using the target track information. | 2021-10-14 |
20210318426 | BUILDING RADAR-CAMERA SURVEILLANCE SYSTEM - A building radar-camera system includes a camera configured to capture one or images, the one or more images including first locations within the one or more images of one or more points on a world-plane and a radar system configured to capture radar data indicating second locations on the world-plane of the one or more points. The system includes one or more processing circuits configured to receive a correspondence between the first locations and the second locations of the one or more points, generate a sphere-to-plane homography, the sphere-to-plane homography translating between points captured by the camera modeled on a unit-sphere and the world-plane based on the correspondence between the first locations and the second locations, and translate one or more additional points captured by the camera or captured by the radar system between the unit-sphere and the world-plane based on the sphere-to-plane homography. | 2021-10-14 |
20210318427 | METHOD FOR RECOGNIZING IDENTITY AND GESTURE BASED ON RADAR SIGNALS - A method for recognizing an identity and a gesture based on radar signals includes: reading a radar echo signal reflected by various gestures of a tester and received by a radar sensor; frequency-mixing the radar echo signal with a radar transmission signal; after filtering and centralizing a frequency-mixed signal, training and obtaining a neural network capable of identity verification and a neural network capable of gesture recognition; in a real-time detection process, verifying an identity of a user; and if the identity is verified, determining that a gesture of the user is valid; verifying the gesture of the user and executing a corresponding operation according to correspondence between the gesture of the user and an operation. It can be determined by the method whether the gesture belongs to the corresponding user and whether the operation corresponding to the gesture is performed according to the determined result. | 2021-10-14 |
20210318428 | AUGMENTED REALITY PLATFORM AND METHOD FOR USE OF SAME - An augmented reality platform and method for use of the same are provided. In one embodiment, an array of locationing devices determine a perspective value of a physical object within a space based on visual-inertial odometry, radio wave positioning, and acoustic positioning. A server determines a decided value of the physical object based on a plurality of perspective values of the physical object received from the array of locationing devices. A digital map and digital library maintained by the server maintain the location of physical objects and spatial experiential objects in order to provide the spatial experiential object to an augmented reality device. | 2021-10-14 |
20210318429 | ELECTRONIC DEVICE, METHOD FOR CONTROLLING ELECTRONIC DEVICE, AND ELECTRONIC DEVICE CONTROL PROGRAM - An electronic device | 2021-10-14 |
20210318430 | ULTRASONIC SENSORS FOR WORK MACHINE OBSTACLE DETECTION - A work machine includes a frame, a sensor assembly, and an ultrasonic sensor. The frame includes a first portion and a second portion that includes a front bumper and is configured to pivot with respect to the first portion for steering the work machine. The sensor assembly is positioned on the first portion or the second portion of the frame and is configured to sense data for detection of obstacles within a first area around the work machine. The ultrasonic sensor is positioned on the front bumper of the second portion and is configured to sense data for detection of obstacles within a second area around the work machine, the second area outside the first area when the second portion is in an articulated position with respect to the first portion. | 2021-10-14 |
20210318431 | OBJECT DETECTION DEVICE - An object detection device includes: a transmission unit configured to transmit a transmission wave; a reception unit configured to receive a reception wave, which is the transmission wave reflected by and returned from an object, until a predetermined measurement time elapses after the transmission wave is transmitted; a detection unit configured to detect the object based on distance information based on the reception wave received by the reception unit; and a reception control unit configured to set the measurement time after the detection of the object to be shorter than the measurement time after a non-detection of the object. | 2021-10-14 |
20210318432 | OBJECT DETECTION DEVICE AND OBJECT DETECTION SYSTEM - An object detection device includes: a transmission unit transmitting a transmission wave substantially at the same time with another transmission unit in another object detection device; a reception unit receiving a reception wave including surges corresponding to a result of return of the transmission wave by the transmission unit and another transmission wave by the another transmission unit in accordance with reflection by an object; an identification unit identifying a transmission source of the surges included in the reception wave; and a detection unit detecting information related to the object based on a correspondence relationship between a first peak of a first waveform indicating a first surge transmitted by the another transmission unit and received by the reception unit and a second peak of a second waveform indicating a second surge transmitted by the transmission unit and received by another reception unit provided in the another object detection device. | 2021-10-14 |
20210318433 | DETECTION APPARATUS, DETERMINATION METHOD, AND NONTRANSITORY COMPUTER READABLE MEDIUM STORING PROGRAM - An object is to provide a detection apparatus, a determination method, and a program capable of distinguishing a natural object from a structure and thereby detecting the natural object. A detection apparatus ( | 2021-10-14 |
20210318434 | LIGHT RANGING DEVICE HAVING AN ELECTRONICALLY SCANNED EMITTER ARRAY - Embodiments describe a solid state electronic scanning LIDAR system that includes a scanning focal plane transmitting element and a scanning focal plane receiving element whose operations are synchronized so that the firing sequence of an emitter array in the transmitting element corresponds to a capturing sequence of a photosensor array in the receiving element. During operation, the emitter array can sequentially fire one or more light emitters into a scene and the reflected light can be received by a corresponding set of one or more photosensors through an aperture layer positioned in front of the photosensors. Each light emitter can correspond with an aperture in the aperture layer, and each aperture can correspond to a photosensor in the receiving element such that each light emitter corresponds with a specific photosensor in the receiving element. | 2021-10-14 |
20210318435 | FREQUENCY MODULATED CONTINUOUS WAVE LIDAR WITH LOCKED DUAL LASERS - A frequency-modulated continuous wave (FMCW) LIDAR can be configured to reduce re-reflection and cross-coupling in the FMCW LIDAR. A first laser can be configured to generate a ranging signal, and a second laser can be configured to generate a local oscillator signal. A feedback control can be configured to maintain an offset between the ranging signal and the local oscillator signal. The offset can be a non-zero value. A transmit portion configured to emit a reference laser signal based on the ranging signal into an environment. A receiver portion can be configured to receive a return laser signal from the environment. The return laser signal can be a reflected version of the reference laser signal. A receiver photodetector can be configured to combine the return laser signal and the local oscillator signal. | 2021-10-14 |
20210318436 | REDUCTION OF SAMPLING RATES IN LIDAR SYSTEMS - A LIDAR system has a transmitter that outputs a system output signal from the LIDAR system. The LIDAR system also includes electronics that control a frequency of the system output signal over a series of cycles. The cycles include multiple data periods. The electronics change the frequency of the system output signal at a first rate during a first one of the data periods. The electronics change the frequency of the system output signal at a second rate during a second one of the data periods. The second rate is different from the first rate. | 2021-10-14 |
20210318437 | DISPLACEMENT SENSOR - Provided is a displacement sensor having a modular structure that allows further downsizing. A housing of a head is made up of a main housing and a lid member, both of which are precision molded products made of a metal material. A first holder to which a light projector is bonded and a second holder to which a light receiver is bonded are individually positioned on and bonded to the lid member. This work is performed by a mounting device. Optical components such as a light projecting lens are also bonded to the lid member, and the lid member modularized by incorporating such optical components is assembled and welded to the main housing. | 2021-10-14 |
20210318438 | SYSTEM AND METHOD OF REGISTERING POINT CLOUD DATA USING SUBSAMPLE DATA - A system of generating a three-dimensional (3D) scan of an environment includes multiple 3D scanners including a first 3D scanner at respective first and second positions. The system further includes a controller coupled to the 3D scanners via a common communications network. The first scanner and second scanner transmit a subset of data to the controller while acquiring a set of 3D coordinates. The controller registers the subsets of data to each other while the sets of 3D coordinates is being acquired. | 2021-10-14 |
20210318439 | Hybrid LADAR with Co-Planar Scanning and Imaging Field-of-View - A laser radar includes: a laser, an optical transmission system, a 1-dimensional array of photo-detectors, an optical reception system, and an electronic control system. The laser emits a wavelength of light, and the optical transmission system shapes the light into a beam, and scans the beam along a fan of transmission light paths toward a target. The photo-detectors are capable of time-of-arrival measurements and are sensitive to the wavelength of light. The optical reception system collects the laser light reflected from the target along a fan of reception light paths. The electronic control system synchronizes the scan of the beam with a respective time-of-arrival measurement from each of the photo-detectors, and analyzes the time-of-arrival measurements. The system is configured for all of the transmission light paths and all of the reception light paths to lie in one plane, with all of the reception light paths intersecting with at least one of the transmission light paths. | 2021-10-14 |
20210318440 | PERCEPTION SYSTEM THREE LIDAR COVERAGE - An autonomous articulated soil compactor machine can include: a machine frame; at least one cylindrical roller drum rotatably coupled to the machine frame and rotatable about a drum axis oriented generally transverse to a direction of travel of the compactor machine; a first lidar sensor on a front of the machine; a second lidar sensor on a first side of the machine; and a third lidar sensor on a second side of the machine; wherein the first, second and the third lidar sensors are positioned such that 360 degree lidar coverage is provided around the articulated compactor machine. | 2021-10-14 |
20210318441 | WALL VISUALISATION FROM VIRTUAL POINT OF VIEW - A slope monitoring system for monitoring deformation of a wall or slope from a virtual point of view. A slope monitoring device directs signals at a slope or wall and compiles direction data, range data and amplitude data from signals reflected from the slope or wall. The direction data, range data and amplitude data comes from a first real position and a second real position. The data may be recorded sequentially or concurrently. | 2021-10-14 |
20210318442 | Wavelength Division Multiplexed LIDAR - Aspects of the present disclosure describe wavelength division multiplexed LiDAR systems, methods, and structures that advantageously provide a wide field of view without employing lasers having a large tuning range. | 2021-10-14 |
20210318443 | ELECTRONIC DEVICE AND METHOD - An electronic device comprising circuitry configured to generate a coded modulation signal ( | 2021-10-14 |
20210318444 | SENSING ASSEMBLY FOR AUTONOMOUS DRIVING - An autonomous driving assembly for a vehicle includes a plurality of lidar groups supported by a vehicle body of the vehicle and collectively configured to detect a periphery region in proximity to the vehicle body. Different ones of the plurality of lidar groups are supported at different areas of the vehicle body and have different group fields of view. At least two of the different group fields of view overlap with each other. Each of the plurality lidar groups includes a plurality of lidar units fixed at a same location. Different ones of the plurality of lidar units have different unit fields of view. At least two of the different unit fields of view overlap with each other. | 2021-10-14 |
20210318445 | HIGH PERFORMANCE THREE DIMENSIONAL LIGHT DETECTION AND RANGING (LIDAR) SYSTEM FOR DRONE OBSTACLE AVOIDANCE - A 3D LIDAR obstacle avoidance system comprising a camera; a data processor; and a gimbaled laser ranging system. The gimbaled laser ranging system is bore sighted to the camera's optical axis and has its rotation axes centered on the camera focal plane (see the attached drawing). Two-dimensional information of the camera is converted to 3-dimensional information by selectively ranging scene objects of interest (i.e. moving targets). Selected object ranges are queried simply by commanding the gimbal to point to the angle in the scene represented by the object's location in the focal plane. By not sampling the entire scene, significant improvements in throughput and range are achieved. Sensor operation in inclement weather is possible by using an IR camera and a longer wavelength ranging-laser. | 2021-10-14 |
20210318446 | HIGH PRECISION INDEPENDENT POSITIONING APPARATUS FOR REFERENCE STATION - An apparatus provides independent precise positioning for a reference station including a GNSS antenna and a GNSS receiver. The GNSS receiver generates GNSS data based on a plurality of GNSS signals received at the GNSS antenna, including GNSS signals having augmentation information. The apparatus includes a positioning processor, a signal processor, and a signal transmitter. The positioning processor calculates a current position of the reference station based on GNSS observation data and GNSS augmentation data obtained from the augmentation information included in the received GNSS signals, without using position information of another reference station, whereby the reference station is independently installed at a desirable location without surveying or measuring the desirable location. The signal processor generates error correction information including the current position of the reference station in a predetermined data format such as RTCM or CMR, based on the GNSS augmentation data. | 2021-10-14 |
20210318447 | Discriminating and Mitigating SNS Spoofing Signals - A system and method for discriminating and mitigating spoofing signals incoming to a satellite navigation system. Beam steering techniques are used to steer a null toward a legitimate satellite signal that is being spoofed. The spoofing signal is then tracked and its angle of arrival measured. A null is steered toward the measured angle of arrival of the spoofing signal, and the spoofing signal is confirmed by determining if there is a signal remaining with nulls on both the legitimate satellite signal and the spoofing signal. The null toward the legitimate satellite signal is then replaced with unity gain. | 2021-10-14 |
20210318448 | SYSTEM AND METHOD FOR GPS BASED AUTOMATIC INITIATION OF SENSOR CALIBRATION - The present teaching relates to apparatus, method, medium, and implementations for initiating sensor calibration. A first GPS signal is received by a GPS receiver residing in an ego vehicle and is used to determine a first geo-position of the ego vehicle. A GPS related signal transmitted by a fiducial marker is received and is used to obtain a second geo-position of the fiducial marker. A distance between the ego vehicle and the fiducial marker is determined based on the first and second geo-positions and is used to determine whether to initiate calibration of one or more sensors using the fiducial marker. | 2021-10-14 |