20th week of 2016 patent applcation highlights part 39 |
Patent application number | Title | Published |
20160139171 | IN-PLANE VIBRATING BEAM ACCELEROMETER - A device is described that includes a pendulous proof mass, a support base, a flexure, and at least two resonators. The support base defines a plane and supports the pendulous proof mass. The flexure flexibly connects the pendulous proof mass to the support base, suspends the pendulous proof mass within the support base, and in response to an acceleration of the device, the pendulous proof mass rotates about the flexure in the plane defined by the support base. The at least two resonators flexibly connect the pendulous proof mass to the support base and flex based on the rotation of the pendulous proof mass about the flexure, wherein each of the at least two resonators resonate at a respective resonant frequency. | 2016-05-19 |
20160139172 | Rocker device for a micromechanical z-sensor - A rocker device for a micromechanical Z-sensor, including two rocker arms which are mounted around a torsion spring and which are asymmetric relative to the torsion spring; the rocker arms having first perforations; at least one of the rocker arms having at least one opening, a diameter of the first perforations being configured in a defined manner to be smaller than a diameter of the opening; and a cavity for connecting the first perforations to the at least one opening being formed in at least one of the rocker arms. | 2016-05-19 |
20160139173 | COMBINED MAGNETOMETER ACCELEROMETER MEMS DEVICES AND METHODS - Considerations for selecting capacitive sensors include accuracy, repeatability, long-term stability, ease of calibration, resistance to chemical and physical contaminants, size, packaging, integration options with other sensors and/or electronics, and cost effectiveness. It is beneficial if such sensors are amenable to above-IC integration with associated control/readout circuitry for reduced parasitics and reduced footprint through area sharing. The inventors have established a combined Lorentz force based magnetometer and accelerometer MEMS sensor exploiting a low temperature, above-IC-compatible fabrication process operating without requiring vacuum packaging. By switching an electrical current between two perpendicular directions on the device structure a 2D in-plane magnetic field measurement can be achieved whilst concurrently, the device serves as a 1D accelerometer for out-of-plane acceleration, by switching the current off and by monitoring the structure's capacitive change in response to acceleration. The design can thus separate magnetic and inertial force measurements, utilizing a single compact device. | 2016-05-19 |
20160139174 | TRIMMING CIRCUIT FOR A SENSOR AND TRIMMING METHOD - An on-board trimming circuit suitable for trimming an accelerometer provides offset trim and gain trim modules for determining correct trim codes for subsequent programming into the trimming circuit. The correct trim codes may be determined by comparing sensor outputs which have been adjusted by successive trim codes, with a reference voltage in a comparator until the comparator toggles or by using a successive approximation technique. The reference voltage is supplied form a tap of a feedback resistance divider circuit which forms a part of an on-board voltage reference generator which may be used to provide a full scale reference for an analog to digital converter which converts a sensor output voltage into a digital signal. Using these reference voltages significantly lessens the impact of any offsets inherent in the voltage reference generator on the trimming process. | 2016-05-19 |
20160139175 | PHASE CORRECTION DEVICE, ACTION IDENTIFICATION DEVICE, ACTION IDENTIFICATION SYSTEM, MICROCONTROLLER, PHASE CORRECTION METHOD, AND PROGRAM - There are included a standard deviation calculation unit that receives a plurality of acceleration data and calculates a standard deviation of the plurality of acceleration data for each specified time period, an average calculation unit that receives the plurality of acceleration data and calculates an average value of the acceleration data for each specified time period, a phase estimation unit that estimates a phase of the average value in a space having a first coordinate axis and a second coordinate axis by using the average value when the standard deviation is smaller than a specified threshold, and a phase correction unit that performs phase correction of the average value by using the estimated phase. | 2016-05-19 |
20160139176 | METHOD AND SYSTEM OF DUAL-MODE ACTUATION AND SENSING FOR REAL-TIME CALIBRATION OF AXISYMMETRIC RESONANT GYROSCOPES - A dual-mode actuation and sensing circuit actuates both modes of an axisymmetric gyroscope and senses both outputs thereof. The sum of the two outputs provides a self-sustaining closed-loop oscillation signal, while the difference of the two mode outputs is used for extracting differential rate information while rejecting the common-mode bias terms of the gyroscope to provide online bias calibration. The proposed system and method facilitates scale factor calibration of an axisymmetric gyroscope. Furthermore, the difference output of the dual-mode gyroscope can provide a mode-split indicator signal which can be used to automatically match the gyroscope modes. | 2016-05-19 |
20160139177 | NANOSCALE PROBE STRUCTURE AND APPLICATION THEREOF - A nanoscale probe structure, including: a first probe having a tip top end and a second probe having a planar top end, wherein a metallic layer coats the on the tip top end, an insulating layer coats around the tip top end of the first probe; and a metallic layer coats on the planar top end, an insulating layer coats around the planar top end of the second probe. The structure of present invention can applied in atomic force microscopy to measure the electricity physiology signal inside and outside the cell membrane, which can limit the measure region to specific little area for the measure of electricity physiology signal and effectively decrease the miscellaneous noise disturbance from other region. | 2016-05-19 |
20160139178 | DUAL OUTPUT HIGH VOLTAGE ACTIVE PROBE WITH OUTPUT CLAMPING AND ASSOCIATED METHODS - A high-voltage active measurement probe is for a measurement instrument such as an oscilloscope. The high voltage active measurement probe includes an input terminal configured to receive an input signal from a device under test (DUT), a first output terminal configured to transmit a first output signal to the measurement instrument for measurement and display of peak voltages, and a second output terminal configured to transmit a second output signal to the measurement instrument for high sensitivity measurement and display of low level voltages. A first probe signal path is between the input terminal and the first output terminal, and a second probe signal path between the input terminal and the second output terminal. A first amplifier is in the first probe signal path between the input terminal and the first output terminal, and a second amplifier is in the second probe signal path between the input terminal and the second output terminal. A first attenuator is in the first probe signal path between the input terminal and the first amplifier, and a second attenuator in the second probe signal path between the input terminal and the second amplifier. A clamping circuit is in the second signal path between the second amplifier and the second output terminal and configured to clamp an internal probe signal, e.g. between an upper clamping threshold and a lower clamping threshold, to produce the second output signal. | 2016-05-19 |
20160139179 | HIGH-FREQUENCY CANTILEVER TYPE PROBE CARD - A high-frequency cantilever type probe card includes a base board, a probe base provided on the base board, two probes, and a capacitor having opposite ends electrically connected to the probes respectively. The probe base is made of an insulating material, and the probes are made of a conductive material. Each of the probes has an arm and a tip, wherein the arm is connected to the probe base, and the tip is adapted to contact a pad of a DUT. When the DUT generates a testing signal with a high frequency, and the testing signal is transmitted to one of the probes, the capacitor, and the other one of the probes in sequence, and then transmitted back to the DUT. | 2016-05-19 |
20160139180 | TESTING SEMICONDUCTOR DEVICES - An apparatus includes a plurality of semiconductor devices and an electrical input device for applying voltage to the plurality of semiconductor devices. There is a switching array configured to sequentially interconnect the electrical input device to each of the semiconductor devices and disconnect the other semiconductor devices from the electrical input device. The semiconductor device connected to the electrical input device is a device under test that produces a test current and the other semiconductor devices are devices not under test that produce, in the aggregate, a leakage current. There is an output node interconnected to the switching array for enabling the measurement of the test current at the output node. There is also a leakage current compensator connected to the output node and the switching array that is configured to divert the leakage current away from the output node. | 2016-05-19 |
20160139181 | CONDUCTOR ASSEMBLY - Conductor assembly ( | 2016-05-19 |
20160139182 | SINE WAVE ANALYSIS METHOD AND APPARATUS - Provided, is an apparatus and method for sampling or otherwise processing an alternating wave. A sensor senses a value of the alternating wave at a plurality of equally-spaced times during a period of the alternating wave. These equally-spaced times are determined independent of at least one of a frequency and a phase of the alternating wave. A controller determines, independently of the frequency and the phase of the alternating wave, a desired value of the alternating wave pertinent to a predetermined application of the apparatus based on the value of the alternating wave sensed by the sensor. | 2016-05-19 |
20160139183 | METHOD AND APPARATUS FOR ZERO CURRENT DETECTION - This application discusses, among other things, zero current detection. In an example, a circuit for zero current detection can include a compensating circuit and a detecting circuit. The compensating circuit can be configured to feed back a compensating voltage to the detecting circuit according to an output voltage of a DC-DC converting circuit. The detecting circuit can be configured to dynamically adjust an intentional offset voltage according to the compensating voltage, and to perform zero current detection of the DC-DC converting circuit according to the adjusted Voffset. | 2016-05-19 |
20160139184 | VOLTAGE TEST APPARATUS AND METHOD - The disclosure provides a voltage test apparatus for CPU serial voltage identification signal including a collecting module, a detecting module, and a processing module. The collecting module obtains the SVID signal from the CPU, the detecting module obtains the work voltage from the CPU. The processing module obtains the SVID signal and the work voltage from the collecting module and the processing module. The processing module converts the SVID signal to an analog voltage. The processing module further compares the work voltage with the analog voltage. The disclosure also provides a testing method for CPU SVID signal. | 2016-05-19 |
20160139185 | DYNAMIC SENSITIVITY ADJUSTMENT FOR ADC MEASUREMENTS - Systems and methods of measuring dynamic signals for power distribution units. In one embodiment, a power distribution unit (PDU) includes an analog to digital converter (ADC) including a plurality of channels, each channel corresponding to a respective outlet of a plurality of outlets of the PDU. The PDU further includes a microprocessor coupled to the ADC and configured to measure a scale of a signal output from a first channel of the ADC, compare the scale of the signal to a sensitivity threshold, and select, for a first outlet corresponding to the first channel, a reference voltage of a plurality of reference voltages for input to the ADC based on a result of comparing. Various embodiments allow using an ADC to measure low level outlet currents of less than around 300 mA in addition to high level currents such as around 20A. | 2016-05-19 |
20160139186 | NON-CONTACT TYPE VOLTAGE SENSOR FOR DUAL-WIRE POWER CABLE AND METHOD FOR COMPENSATING INSTALLTION POSITION VARIATION THEREOF - A voltage sensor and the method for compensating installation position variation thereof are disclosed. The voltage sensor may comprise a casing, two substrates, a plurality of voltage sensing units and an iterative operation unit. One side of the casing may include two grooves. The substrates may be respectively disposed in the grooves, and an accommodating space is formed between the substrates. The voltage sensing units may be disposed on the substrates to measure a plurality voltage parameters of a dual-wire power cable disposed in the accommodating space. The iterative operation unit can be disposed in the casing and connected to the voltage sensing units, wherein the iterative operation unit can perform an iterative operation process according to a compensation database and the voltage parameters for compensating the horizontal and vertical displacements occurring when installing the voltage sensor on the cable, and calculate the estimated input voltage of the cable. | 2016-05-19 |
20160139187 | CURRENT SENSE CIRCUIT THAT OPERATES OVER A WIDE RANGE OF CURRENTS - The magnitude of an output current that flows into a load is determined by placing a sense bipolar transistor and a sense resistor in series with the load, utilizing the non-linear current characteristics of the base-emitter junction of the sense bipolar transistor to compress and sense an emitter current logarithmically, and then performing an inverse log function to determine the emitter current, which is substantially identical to the output current that flows into the load. | 2016-05-19 |
20160139188 | METHOD AND SYSTEM FOR ANALYSIS OF ENERGY SAVINGS IN AN ELECTRICAL NETWORK - A method for analysis of energy savings in an electrical network includes obtaining measurements of a plurality of measurement devices linked to loads of the electrical network over a first period of time. A unified signature that characterizes the recorded measurements during the first period of time is calculated. Measurements of the plurality of measurement devices in the electrical network are obtained over a second period of time after introduction of a modification into the electrical network. A unified signature that characterizes the recorded measurements during the second period of time is calculated. The unified signature that characterizes the measurements during the second period of time is compared with the unified signature that characterizes the measurements during the first period of time to calculate energy savings resulting from introduction of the modification. | 2016-05-19 |
20160139189 | Impedance Synthesizer - The present invention relates to a system for impedance generation comprising
| 2016-05-19 |
20160139190 | Sensor Incorporating Multiferroic Materials For Detecting Both Electric and Magnetic Fields - A sensor for detecting both magnetic fields and electric fields can include at least one Sawyer-Tower (ST) circuit that can incorporate a multiferroic capacitor. An odd number of ST circuits coupled together in a ring configuration, so that for each ST circuit, the output of one ST circuit is an input to another of the ST circuits. The multiferroic capacitors can include a multiferroic layer that can be deposed on a substrate. For each multiferroic capacitor, the deposition process can cause an inherent amount of impurities in the multiferroic layer. The number of said odd number of ST circuits to be coupled together is chosen according to the amount of impurities, to “forgive” the impurities. The higher the level of impurities in the multiferroic layers, that more ST circuits that are required in the ring to achieve the same sensor sensitivity. BDFO can be chosen for the multiferroic material. | 2016-05-19 |
20160139191 | INSPECTION DEVICE - A method of inspecting a sensor sheet formed by a roll-to-roll scheme for a touch sensor, the sensor sheet including a roll sheet and a sensor electrode layer thereon, the sensor electrode layer including sensor electrodes running in a prescribed direction, the sensor sheet further including a terminal connected to the sensor electrode layer and alignment marks, the method including: arranging the sensor sheet on an inspection table of an inspection device, the inspection table having an alignment mark and inspection electrodes running in another prescribed direction such that at least one of the alignment marks aligns with the alignment mark on the inspection table and such that the inspection electrodes face the sensor electrodes orthogonally in a plan view and are vertically separated by a dielectric to form capacitances at respective intersections therebetween; measuring the capacitances at the respective intersections; and outputting the measured capacitances as an inspection result. | 2016-05-19 |
20160139192 | SYSTEM AND METHOD FOR SELF-TESTING A GROUND FAULT CIRCUIT INTERRUPTER - Self-test circuitry for testing a circuit interrupter includes an active element coupled to an operating mechanism, a first sub-circuit for temporarily disabling the active element, a second sub-circuit structured to generate a simulated ground fault condition, and a processing unit coupled to the ground fault detection circuitry. The first sub-circuit and the second sub-circuit, the processing unit being structured and configured to control the first sub-circuit to temporarily disable the active element and to control the second sub-circuit to generate the simulated ground fault condition when the active element is disabled. Also, self-test circuitry that includes a sub-circuit structured to generate a simulated ground fault condition and a processing unit structured and configured to control the sub-circuit to generate the simulated ground fault condition only during a predetermined portion of a half cycle of energy passing through the circuit interrupter. | 2016-05-19 |
20160139193 | GROUNDING RESISTANCE MEASUREMENT APPARATUS AND METHOD OF OPERATING THE SAME - A grounding resistance measurement apparatus measures a grounding resistance at an AC power terminal, and is electrically connected to an equipment input terminal which provides an AC power source. The grounding resistance measurement apparatus includes a DC power generation circuit and a DC voltage detection circuit. The DC power generation circuit receives the AC power source at the equipment input terminal and converts the AC power source into a DC power source. The DC power source is provided to produce a DC resistance voltage across the grounding resistance. A voltage difference between the equipment input terminal and an equipment grounding point is equal to the DC resistance voltage so that the grounding resistance is calculated according to the zero DC component in an AC power loop. | 2016-05-19 |
20160139194 | REFLECTOMETRY METHOD FOR IDENTIFYING SOFT FAULTS AFFECTING A CABLE - The reflectometry method for identifying at least one fault affecting a cable at at least one point, comprises: a step for estimating a parameter characteristic of the propagation of a signal within the cable, which include the attenuation α(f), the phase factor β(f), the reflection coefficient Γin(f) seen at the input of the cable from which is subtracted an estimate of the reflection coefficient in the absence of faults or a function, linear or non-linear, any of these parameters or a combination of parameters, the estimation being made as a function of the frequency of the signal based on a reflectogram of the signal, a step for transformation of the estimate of the parameter from the frequency domain into the time domain, a step for identification of the faults affecting the cable from the identification of the amplitude peaks of the estimate of the parameter transformed into the time domain. | 2016-05-19 |
20160139195 | PROBLEM DETECTION IN CABLE SYSTEM WITH FUSES - Apparatuses ( | 2016-05-19 |
20160139196 | Fiber Aligned and Motionally Coupled with Electric Cable - An arrangement comprising an electric cable, at least one fiber at least a part of which being aligned along and motionally, in particular vibrationally, coupled with the electric cable, and a device for detecting effects in the electric cable via said at least one fiber. | 2016-05-19 |
20160139197 | CIRCUIT, SENSOR AND METHOD FOR DETERMINING AN OSCILLATION BEHAVIOR - A circuitry comprises at least one oscillating circuit section, wherein the circuit section comprises a circuit component, which can be affected by the external influence such that an oscillation behavior of the circuit section can be altered by the external influence. The circuitry is furthermore designed thereby to determine the oscillation behavior of the circuit section by a sampling at numerous defined frequencies. As a result, it may be possible to improve a compromise regarding the production and implementation of such a circuitry. | 2016-05-19 |
20160139198 | APPARATUS FOR TESTING ELECTRONIC DEVICES - An apparatus for testing electronic devices may include a test chamber, a heating unit, a cooling unit and a controller. The test chamber may include a plurality of slots configured to receive the electronic devices. The heating unit may heat the electronic devices in the slots. The cooling unit may individually cool the electronic devices in the slots. The controller may selectively control operations of the heating unit and the cooling unit in accordance with temperatures in the slots. Thus, the electronic devices may be provided with a uniform test temperature so that reliability of test results may be improved. | 2016-05-19 |
20160139199 | Magnetic Field Sensor with Shared Path Amplifier and Analog-To-Digital-Converter - Methods and apparatus for processing a signal comprise at least one circuit configured to generate a measured signal during a measured time period and a reference signal during a reference time period. Also included is at least one dual- or multi-path analog-to-digital converter comprising at least a first processing circuit configured to process the measured signal, at least a second processing circuit configured to process the reference signal, and a third processing circuit configured to process both the measured signal and the reference signal. | 2016-05-19 |
20160139200 | SYSTEMS AND METHOD FOR LASER VOLTAGE IMAGING STATE MAPPING - An apparatus and method for laser probing of a DUT is disclosed. The system enables laser voltage imaging state mapping of devices within the DUT. A selected area of the DUT is illuminating a while the DUT is receiving test signals causing certain of the active devices to modulate. Light reflected from the DUT is collected and is converted into an electrical signal. Phase information is extracting from the electrical signal and a two-dimensional image is generated from the phase information, wherein the two-dimensional image spatially correlates to the selected area. | 2016-05-19 |
20160139201 | DEBUG INTERFACE FOR MULTIPLE CPU CORES - A system includes processor cores that receive packets over a debug bus. The cores execute transactions in response to the packets. The packets are one of several types of packets such as a Second Access Bus (SAB) packet and Debug Access Bus (DAB) packet. The cores include specified resources and non-specified resources. A core that executes a transaction in response to a SAB packet accesses a non-specified resource and a core that executes a transaction in response to a DAB packet accesses a specified resources. A debug specification identifies the specified resources as being accessible by a debug controller. The debug specification does not identify the non-specified resources as being accessible by the debug controller. | 2016-05-19 |
20160139202 | TESTBENCH BUILDER, SYSTEM, DEVICE AND METHOD INCLUDING LATENCY DETECTION - A testbench for testing a device under test (DUT), wherein the testbench has a verification environment including a reference model, a scoreboard and a customized agent for each interface that the DUT needs to receive input from and/or transmit output on. The testbench system is able to be generated by a testbench builder that automatically creates a scoreboard, a reference model, a dispatcher and generic agents including generic drivers, loopback ports, sequencers and/or generic monitors for each interface and then automatically customize the generic agents based on their corresponding interface such that the agents meet the requirements of the interface for the DUT. | 2016-05-19 |
20160139203 | TEST SETTING CIRCUIT, SEMICONDUCTOR DEVICE, AND TEST SETTING METHOD - A test setting circuit includes a first detection unit suitable for detecting whether a first code is sequentially inputted based on a first sequence, at each of first to Nth steps, where N is a natural number; a second detection unit suitable for sequentially receiving a second code through the first to Nth steps, and detecting whether the second code that is sequentially inputted through the first to Nth steps has a value corresponding to a second sequence; and a test setting unit suitable for setting a test mode when it is detected that the first code and the second code are inputted to satisfy the first sequence and the second sequence. | 2016-05-19 |
20160139204 | TESTBENCH BUILDER, SYSTEM, DEVICE AND METHOD INCLUDING A GENERIC DRIVER AND TRANSPORTER - A testbench for testing a device under test (DUT), wherein the testbench has a verification environment including a reference model, a scoreboard and a customized agent for each interface that the DUT needs to receive input from and/or transmit output on. The testbench system is able to be generated by a testbench builder that automatically creates a scoreboard, a reference model, a dispatcher and generic agents including generic drivers, loopback ports, sequencers and/or generic monitors for each interface and then automatically customize the generic agents based on their corresponding interface such that the agents meet the requirements of the interface for the DUT. | 2016-05-19 |
20160139205 | TESTBENCH BUILDER, SYSTEM, DEVICE AND METHOD - A testbench for testing a device under test (DUT), wherein the testbench has a verification environment including a reference model, a scoreboard and a customized agent for each interface that the DUT needs to receive input from and/or transmit output on. The testbench system is able to be generated by a testbench builder that automatically creates a scoreboard, a reference model, a dispatcher and generic agents including generic drivers, loopback ports, sequencers and/or generic monitors for each interface and then automatically customize the generic agents based on their corresponding interface such that the agents meet the requirements of the interface for the DUT. | 2016-05-19 |
20160139206 | CONTACT WEAR DETECTION BY SPECTRAL ANALYSIS SHIFT - A contact wear detector includes an electrical contact | 2016-05-19 |
20160139207 | APPARATUS FOR CALCULATING STATE OF CHARGE OF STORAGE BATTERY - In an apparatus, an OCV calculator measures a close circuit voltage (CCV) across an equivalent circuit of a storage battery, and calculates an open circuit voltage (OCV) across the storage battery based on the CCV, the equivalent circuit, and a current flowing through the storage battery. The equivalent circuit simulates an electrochemical behavior of the storage battery. The equivalent circuit includes the OCV as a power supply voltage and a predetermined internal impedance connected in series to the power supply voltage. The internal impedance includes a capacitance. A calculator calculates an SOC of the storage battery as a function of the OCV. A determiner determines whether the capacitance is saturated as a function of an electrical parameter associated with a charge stored in the capacitance. A diagnosing unit diagnoses whether the SOC of the storage battery is appropriate according to whether the capacitance is saturated. | 2016-05-19 |
20160139208 | REMAINING BATTERY CAPACITY INDICATOR - A power supply path b (b | 2016-05-19 |
20160139209 | BATTERY STATE DETECTION APPARATUS AND METHOD FOR MANUFACTURING SAME - A battery state detection device includes a casing ( | 2016-05-19 |
20160139210 | MONITORING CHARGE STORED IN A BATTERY - A method and corresponding device, for monitoring a charge of a battery. The method obtains a battery current measurement value and a battery voltage measurement value, and applies a current integration method to update a primary charge estimate value representative of the charge stored in the battery by taking into account the battery current measurement value. The method further determines an ancillary charge estimate value representative of the charge stored in the battery using a battery model taking into account the battery voltage measurement value, and determines an error value for the ancillary charge estimate value, in which the error value expresses the reliability of the battery model. The method also applies a correction to the primary charge estimate value as function of the ancillary charge estimate value and the error value. Interpretation of the correction applied in this manner allows determination of current sensor offset and battery capacity change. | 2016-05-19 |
20160139211 | BATTERY STATE DETECTION APPARATUS - A board connection terminal ( | 2016-05-19 |
20160139212 | METHODS AND SYSTEMS FOR POWER RESTORATION PLANNING EMPLOYING SIMULATION AND TRANSIENT TEST ANALYSIS - A computer system includes at least one processor, and a storage device coupled to at least one processor. The storage devices stores instructions that, when executed, causes the at least one processor to simulate restoration of a power grid system, to perform a transient test for the simulated restoration, and to generate a restoration plan for the power grid system based on the simulation and transient test results. | 2016-05-19 |
20160139213 | Variable Permeability Magnetometer Systems and Methods for Aerospace Applications - A magnetometer configured to measure low field strength magnetic fields is provided. Certain embodiments of the magnetometer include a cylindrical coil assembly having a variable permeability core and terminals disposed at both ends. A current source circuit may be operably connected to the terminals and configured to apply a voltage controlled current across the terminals. A voltage readout circuit may be operably connected to the terminals and configured to measure a voltage across the terminals due to the applied current from the current source. An inductance of the coil assembly directly varies as an ambient magnetic field strength varies a permeability of the variable permeability core, and a voltage across the terminals varies directly with the inductance such that the measured voltage across the terminals is a direct measure of the ambient magnetic field strength. | 2016-05-19 |
20160139214 | SYSTEMS AND ARRANGEMENTS OF THREE-CONTACT HALL-EFFECT DEVICES AND RELATED METHODS - Embodiments relate to vertical Hall effect devices comprising Hall effect structures with three contacts in each Hall effect region. In one embodiment, the contacts are interconnected with terminals such that the Hall effect device has symmetry and nominally identical internal resistances in the absence of externally applied magnetic fields. Embodiments are capable of operating in multiple operating phases, such that spinning can be used to measure field redundantly and improve magnetic field measurement accuracy. | 2016-05-19 |
20160139215 | MAGNETISM MEASURING DEVICE, GAS CELL, MANUFACTURING METHOD OF MAGNETISM MEASURING DEVICE, AND MANUFACTURING METHOD OF GAS CELL - A magnetism measuring device includes: a gas cell which includes a cell portion that has a main chamber, a reservoir, a communication hole which allows the main chamber and the reservoir to communicate with each other, and an opening provided in the reservoir, a sealing portion which seals the opening, an ampoule disposed in the reservoir, and an alkali metal gas which fills the main chamber and the reservoir. The ampoule is disposed at a predetermined position in the reservoir, and the opening is provided at a position that is distant from the predetermined position. | 2016-05-19 |
20160139216 | MAGNETIC FIELD MEASUREMENT APPARATUS - A magnetic field measurement apparatus includes an irradiation portion, a gas cell, a measurement unit (polarization separation unit, light receiving portion, signal processing circuit), and a magnetic shield. The magnetic shield is formed in a elongated hollow shape having openings at both sides thereof. The gas cell, in which gaseous atoms are sealed, is disposed in a hollow area of the magnetic shield. The irradiation portion irradiates irradiation light including linearly polarized light adjusted so that the vibration direction of an electric field coincides with the axis direction of the magnetic shield onto the gaseous atoms sealed in the gas cell along a direction perpendicular to the axis of the magnetic shield. The measurement unit measures a rotational angle of a polarization plane of the irradiation light that has been irradiated by the irradiation portion and passed through the gaseous atoms. | 2016-05-19 |
20160139217 | MAGNETIC RESONACE IMAGING APPARATUS AND CONTROL METHOD THEREFOR - In order to provide a magnetic resonance imaging apparatus capable of calculating the amount of absorption of electromagnetic waves into the object with high accuracy, the magnetic resonance imaging apparatus includes: a calculation means for calculating the amount of absorption of electromagnetic waves into the object upon the emission of RF pulses in a part of the object or a bed position where imaging is scheduled; a means for setting imaging conditions, in which the calculated amount of absorption satisfies conditions of the specified value of the amount of absorption of electromagnetic waves, from the relationship between the calculated amount of absorption and the specified value of the amount of absorption of electromagnetic waves; and a bed control device that controls a top plate according to the set imaging conditions. | 2016-05-19 |
20160139218 | MAGNETIC RESONANCE IMAGING SUBJECT SUPPORT - The invention provides for a subject support assembly ( | 2016-05-19 |
20160139219 | SYSTEM AND METHOD FOR ENHANCING THERMAL REFLECTIVITY OF A CRYOGENIC COMPONENT - A device includes a component operable at a temperature in a range of 3.5 to 6 Kelvin. The device further includes a thermal reflective sheet comprising a plurality of layers, wound around at least a portion of the component. The device also includes a coupling device for coupling the thermal reflective sheet to at least the portion of the component. | 2016-05-19 |
20160139220 | METHOD FOR ACQUIRING A MAGNETIC FIELD INHOMOGENEITY VALUE AND DISTORTION CORRECTION METHOD FOR MAGNETIC RESONANCE IMAGING SYSTEM - A method for acquiring a basic magnetic field inhomogeneity value of a magnetic resonance imaging (MRI) system includes homogenizing an original basic magnetic field of the MRI system into a target magnetic field, providing a magnetic field compensation amount for the MRI system by a dynamic shimming method. The dynamic shimming method includes performing a 3D low-resolution dual-echo gradient echo sequence, and using a general formula to acquire the magnetic field inhomogeneity value, the general formula being: ΔB=ΔB | 2016-05-19 |
20160139221 | MAGNETIC RESONANCE IMAGING GRADIENT COIL - The invention provides for a magnetic gradient coil ( | 2016-05-19 |
20160139222 | METHODS FOR SPATIAL AND SPECTRAL SELECTIVITY IN MAGNETIC RESONANCE IMAGING AND SPECTROSCOPY - The present invention provides magnetic resonance multidimensional selectivity based on spatiotemporal encoding (SPEN). In particular, multidimensional selectivity is achieved by the concurrent application of frequency-swept irradiation and magnetic field gradients for the sequential manipulation of spins in space in one dimension or more. Simultaneous spatial and spectral selectivity is disclosed. | 2016-05-19 |
20160139223 | METHOD AND SYSTEM FOR GENERATING A MAGNETIC RESONANCE IMAGE - In a method and system for generating a magnetic resonance image, a raw data record with non-Cartesian recorded data points is provided to a processor, and the recorded data points are gridded on a Cartesian grid to form transformed data points, wherein the number of transformed data points is selected in at least one k-space direction such that the field of view is reduced in size, and Fourier transformation of the transformed data points is implemented to form a magnetic resonance image with a field of view as the raw data record that is smaller in at least one direction. | 2016-05-19 |
20160139224 | SYSTEMS AND METHODS FOR AVOIDING MRI-ORIGINATED INTERFERENCE WITH CONCURRENTLY USED SYSTEMS - MRI interference with a concurrently operated system may be reduced or corrected by subtracting the MRI interference from signals measured using the concurrently operated system. | 2016-05-19 |
20160139225 | METHOD AND APPARATUS FOR MULTI-SLICE IMAGING OF T2-RELAXATION TIME - An MRI method includes performing a first image acquisition module of a pulse sequence to acquire a first MR data from slices disposed at different locations in a region of interest (ROI) of an object; performing a second image acquisition module of the pulse sequence, to acquire a second MR data from the slices disposed at the different locations of the ROI, with a T2 preparation time different than that of the first image acquisition module; and generating a T2 map based on the acquired first MR data and the acquired second MR data. | 2016-05-19 |
20160139226 | APPARATUSES, METHODS AND SYSTEMS FOR ESTIMATING WATER DIFFUSIVITY AND MICROCIRCULATION OF BLOOD USING DW-MRI DATA - APPARATUSES, METHODS AND SYSTEMS FOR ESTIMATING WATER DIFFUSIVITY AND MICROCIRCULATION OF BLOOD USING DW-MRI DATA (“AEW”) are disclosed herein. The apparatuses, methods and systems provide a computational framework for choosing and applying the most appropriate model in different regions of a heterogeneous area on a voxel-by-voxel basis. The apparatuses, methods and systems also configure an intravoxel-incoherent-motion (IVIM) model for estimating water diffusivity and microcirculation of blood in the capillary network from DW-MRI low b-value data. In one implementation, the method uses a small number of b-values (at least 3 in the b-value range of 0-300 s/mm | 2016-05-19 |
20160139227 | MAGNETIC RESONANCE METHOD AND APPARATUS FOR ACCELERATING MAGNETIC RESONANCE FINGERPRINTING - In a method and apparatus for the examination of a predetermined volume portion of an object with a magnetic resonance (MR) fingerprinting procedure, an MR signal curve for voxels of the volume portion is acquired, and a comparison of the MR signal curve of the respective voxel is made with stored MR signal curves in order to determine the stored MR signal curve that conforms most closely to the MR signal curve, with the result of the comparison then being made available as an output. The comparison with the MR signal curve of the voxel is (initially) performed with a specific number of signal points of the MR signal curve. A quality measure is determined with which the quality of the most closely conforming stored MR signal curves is determined. The performance of the comparison for the respective voxel is repeated if the quality measure is below a predetermined quality threshold value, with the number of signal points being first increased by a difference number. | 2016-05-19 |
20160139228 | A MULTI-ECHO LENGTH AND OFFSET VARIED SATURATION (Me-LOVARS) METHOD FOR CHEMICAL EXCHANGE SATURATION TRANSFER (CEST) MR IMAGING - The present invention provides a novel approach for CEST MR imaging, called Multi-echo Length and Offset VARied Saturation (Me-LOVARS) CEST. This method allows efficient collection of additional CEST data without penalty in scan time, which could be useful for enhancing the contrast, increasing the specificity or improving quantification of exchange. As CEST-MRI has shown promise at both the pre-clinical and clinical levels, including for detecting and grading brain tumors and evaluating ischemia, using either endogenous CEST contrast or through administration of CEST contrast agents. This fast and robust imaging method is suitable for accelerating image collection and widening the scope of applications for CEST-MRI. | 2016-05-19 |
20160139229 | Dual-Path Analog to Digital Converter - Methods and apparatus for processing a signal comprise at least one circuit configured to generate a measured signal during a measured time period and a reference signal during a reference time period. Also included is at least one dual- or multi-path analog-to-digital converter comprising at least a first processing circuit configured to process the measured signal, at least a second processing circuit configured to process the reference signal, and a third processing circuit configured to process both the measured signal and the reference signal. | 2016-05-19 |
20160139230 | Magnetic Field Sensor Having Calibration Circuitry and Techniques - A magnetic field sensor includes at least one magnetic field sensing element configured to generate a measured magnetic field signal responsive to an external magnetic field and to generate a reference magnetic field signal responsive to a reference magnetic field and a calibration circuit configured to divide the measured magnetic field signal by the reference magnetic field signal to generate a calibrated magnetic field signal. The calibrated signal has reduced susceptibility to stress influences. | 2016-05-19 |
20160139231 | Petrophysically-Consistent Calibration of Full-Tensor Electromagnetic Induction Tools - A method for calibrating an electromagnetic core analysis tool is disclosed. The method includes disposing a tilted test loop inside of or outside of a tool having more than one antenna. A uniform test pack, a layered test pack, and an effective media test pack are each disposed in the tool. A signal is induced in a receiver antenna in the tool when a second antenna is energized with a known current of a known frequency. The induced signal is measured and a calibration gain and offset is determined. A corrected signal is produced and compared with the determined signal based on a forward model. | 2016-05-19 |
20160139232 | INDEPENDENT BEACON BASED LIGHT POSITION SYSTEM - Systems an methods are provided that disclose providing a positioning service for devices based on light received from one or more light sources. This light based positioning service uses light information transmitted by each light source to determine the position of the device. The positioning information can include three dimension position information in a building that can then be used to deliver services and information to a mobile device. The content delivered to a mobile device can include multimedia, text, audio, and/or pictorial information. The positioning information along with other location or positioning information can be used in providing augmented reality or location aware services. The light sources can be independent beacons that broadcast information in visible light at a rate that is undetectable by the human eye. Content can be retrieved from a server over a communications connection. | 2016-05-19 |
20160139233 | INDEPENDENT BEACON BASED LIGHT POSITION SYSTEM - Systems an methods are provided that disclose providing a positioning service for devices based on light received from one or more light sources. This light based positioning service uses light information transmitted by each light source to determine the position of the device. The positioning information can include three dimension position information in a building that can then be used to deliver services and information to a mobile device. The content delivered to a mobile device can include multimedia, text, audio, and/or pictorial information. The positioning information along with other location or positioning information can be used in providing augmented reality or location aware services. The light sources can be independent beacons that broadcast information in visible light at a rate that is undetectable by the human eye. Content can be retrieved from a server over a communications connection. | 2016-05-19 |
20160139234 | INDEPENDENT BEACON BASED LIGHT POSITION SYSTEM - Systems an methods are provided that disclose providing a positioning service for devices based on light received from one or more light sources. This light based positioning service uses light information transmitted by each light source to determine the position of the device. The positioning information can include three dimension position information in a building that can then be used to deliver services and information to a mobile device. The content delivered to a mobile device can include multimedia, text, audio, and/or pictorial information. The positioning information along with other location or positioning information can be used in providing augmented reality or location aware services. The light sources can be independent beacons that broadcast information in visible light at a rate that is undetectable by the human eye. Content can be retrieved from a server over a communications connection. | 2016-05-19 |
20160139235 | METHOD FOR TRACKING A SOLAR GENERATOR TO THE SUN, CONTROL FOR A SOLAR PLANT AND SOLAR PLANT - The present invention describes a method for tracking a solar generator having a plurality of solar modules to the sun, wherein at least one electric output quantity of part of the solar module of the solar generator is detected and a tracker, on which the solar generator is mounted, is controlled such that the detected electric output quantity has a predetermined value. Further, a control for a solar plant and a solar plant having such a control are described. | 2016-05-19 |
20160139236 | DIFFERENTIATED STATION LOCATION - Embodiments allow a station to determine its location and report the location to a access point or other network entity. The station obtains agreement with an access point, group of access points, or other network entity to provide its location to a designated accuracy level and the access point(s) agree to provide services such as access to a location service, the access point(s) location to a designated positional accuracy, etc. The station measures its position and induces an error in its reported location. The induced error prevents an exact location of the station from being determined by the access point(s) or others, thus preserving the privacy of the station. The location reported by the station may be absolute (e.g., geographic coordinates) or relative to a landmark, location, etc. | 2016-05-19 |
20160139237 | RFID TAG LOCATIONING USING DYNAMIC BEACON TAG ASSOCIATION - A method and apparatus for determining the position of a RFID tag. The method includes the following: (1) measuring the position of an active device to an accuracy of better than 1.0 meter using a radio locating system to determine the position of a reference point; (2) detecting a first RF signal from a reference RFID tag near the reference point with an RF receiver in an RFID reading system; (3) detecting a second RF signal from a RFID tag of interest with the RF receiver in the RFID reading system; and (4) processing both the first RF signal and the second RF signal and relying upon at least partially the position of the reference point to determine the position of the RFID tag of interest. | 2016-05-19 |
20160139238 | SYSTEM AND METHOD FOR RFID INDOOR LOCALIZATION - Disclosed is a system for RFID indoor localization for estimating location of a target object in a localization area, comprising: a radio frequency identification (RFID) unit comprising a RFID reader and a plurality of RFID antennas in operative communication with the RFID reader; and a central unit in operative communication with the RFID unit. The central unit is capable of configuring and distributing a plurality of passive reference tags in the localization area and further capable of: collecting data from the passive reference tags through the RFID unit; processing the collected data; and estimating location of the target object. The central unit employs learning-based location estimation by received signal strength RSSI and detection rate fingerprinting of passive reference tags and the use of tags with different backscattered range. | 2016-05-19 |
20160139239 | DETERMINING DEVICE LOCATIONS USING MOVEMENT, SIGNAL STRENGTH - Techniques for precisely determining a location of a mobile computing device based on both wireless signal strengths measured at the mobile computing device and movement of the device. The wireless signal strengths may represent the strength of a connection between the device and wireless access points (WAPs), cellular towers, or the like. Furthermore, the techniques described herein may utilize movement data provided by the device. For instance, the device may include an accelerometer, a gyroscope, and/or any other components configured to recognize when a device is moving, a direction that the device is moving, or the like. In one example, the accelerometer reports when the device has moved by a certain amount, while the gyroscope reports a direction in which the device is moving. The techniques then utilize this information in addition to the wireless signal strengths to estimate locations of the device as the device moves over time. | 2016-05-19 |
20160139240 | MOVING OBJECT DETECTION SYSTEM WITH DIRECTION AND DISTANCE PREDICTION - In one representative embodiment, a method of detecting position relative to a wind turbine can comprise detecting a condor within a detection area, determining a first position of the condor relative to the wind turbine, assigning the condor to a first predetermined zone of a plurality of predetermined zones based on the first position, determining a second position of the condor relative to the wind turbine, assigning the condor to a second predetermined zone of the plurality of predetermined zones based on the second position, predicting a trajectory of the condor based on a relationship between the first position and the second position. | 2016-05-19 |
20160139241 | SYSTEM AND METHOD FOR 3D TRACKING FOR AD-HOC CROSS-DEVICE INTERACTION - Disclosed is a three-dimensional ad-hoc tracking system and method between two or more devices at a location. The disclosed systems and methods can be implemented on commodity mobile devices with no added components and require no cross-device calibration, in order to track surrounding devices. Such tracking can be achieved by fusing three types of signals: 1) the strength of Bluetooth low energy signals reveals the presence and rough distance between devices; 2) a series of inaudible acoustic signals and the difference in their arrival times produces a set of accurate distances between devices, from which 3D offsets between the devices can be derived; and 3) the integration of dead reckoning from the orientation and acceleration sensors of all devices at a location to refine the estimate and to support quick interactions between devices. The disclosed systems and methods can be implemented by cross-device applications on mobile devices. | 2016-05-19 |
20160139242 | MOBILE UNIT LOCATION USING MOBILE UNITS IN PROXIMITY - A wireless location system/method is disclosed having one or more location centers for locating mobile units. Mobile unit location requests can utilize Internet communication between a network of location centers. A plurality of mobile unit locating technologies may be used, including those based on: TOA, TDOA, GPS, locations of other mobile units in proximity of the mobile unit being located, indoor wireless signal detection units; and reduced coverage base stations. Location determination strategies disclosed: adapting and calibrating system performance according to environmental and geographical changes, using location signal data for enhancing a database of predictive location data, heuristically evaluating mobile unit estimates related to terrain, mobile unit velocity and path, and adjusting mobile unit location estimations adaptively or statistically. The system/method is useful for emergency calls, tracking, routing, people and animal location, including applications for confinement to and exclusion from certain areas. | 2016-05-19 |
20160139243 | DETECTOR FOR OPTICALLY DETECTING AT LEAST ONE OBJECT - A detector for determining a position of at least one object. The detector includes: at least one optical sensor configured to detect a light beam traveling from the object towards the detector, the optical sensor including at least one matrix of pixels; and at least one evaluation device configured to determine an intensity distribution of pixels of the optical sensor that are illuminated by the light beam, the evaluation device further configured to determine at least one longitudinal coordinate of the object by using the intensity distribution. | 2016-05-19 |
20160139244 | DISTANCE OR POSITIION DETERMINATION - A device, method and computer program for determining the distance or position of a camera relative to a light source based on an image of that light source captured by the camera. The device comprises a coded light detection module for detecting a coded light signal modulated into the light from the light source. The coded light detection module is configured to retrieve one or more physical dimensions of the light source based on the coded light signal from that light source. Further, the device comprises an image analysis module configured to determine a distance of the camera from the light source, by performing a geometric perspective calculation to compare the one or more retrieved physical dimensions with one or more apparent dimensions of the image of the light source. | 2016-05-19 |
20160139245 | Sparsity-Driven Passive Tracking of Acoustic Sources - A system and a method involve acoustic source localization for multiple acoustic sources using passive sonar. Tracks are constructed based on source location maps (SLMs) that reveal the locations of the sources over a grid of tentative source locations. The proposed estimator for the SLMs performs coherent processing of broadband acoustic measurements, capitalizes on the sparse structure of the SLMs, and uses the prior SLM estimate as a means to capture temporal information about the locations of the sources. | 2016-05-19 |
20160139246 | Passive Listening Pulse Adaptive Sidelobe Canceller - The present invention relates to methods and systems for electronic countermeasures, and particularly to methods and systems for electronic countermeasures that employ radar jamming devices. | 2016-05-19 |
20160139247 | RADAR SIGNAL PROCESSING METHOD AND APPARATUS FOR COMPENSATING FOR IN-PHASE/QUADRATURE-PHASE (I/Q) IMBALANCE - Provided is a radar signal processing method and apparatus for compensating for an in-phase/quadrature-phase (I/Q) imbalance, the method including extracting a real part of a radar signal in which an I/Q imbalance occurs through a conversion of an in-phase (I) channel signal of the radar signal, extracting an imaginary part of the radar signal through a conversion of a quadrature-phase (Q) channel signal of the radar signal, extracting an error due to the I/Q imbalance based on the real part and the imaginary part, and outputting a correction signal obtained by compensating for the I/Q imbalance of the radar signal based on the error. | 2016-05-19 |
20160139248 | SYSTEMS AND METHODS FOR INTERACTION WITH THERMAL DETECTORS - A system for interacting with a thermal detector includes at least one unmanned aerial vehicle and a sensor mounted to the at least one unmanned aerial vehicle. The sensor is configured to determine the presence of a component of the thermal detector and to generate a signal indicative of the presence of the component. The system also includes a beam emitter mounted to the at least one unmanned vehicle and in communication with the sensor. The beam emitter includes a beam source configured to direct a beam of thermal radiation to the thermal detector in response to the signal from the sensor. | 2016-05-19 |
20160139249 | LOW POWER LASER SENSING - The presently disclosed subject matter includes a laser system and a respective method of detecting a signal reflected from a target illuminated by a modulated CW light source configured to generate a modulated laser signal at a predefined modulation frequency. A signal comprising true laser signal portions reflected from said target, and noise is received; the signal is filtered for selecting laser signal portions at a modulation frequency band; and the true signal portions in the signal are detected, if the energy at the modulation frequency band is greater than a given threshold. | 2016-05-19 |
20160139250 | SURROUNDINGS-SENSING DEVICE HAVING A MODULAR ULTRASONIC TRANSDUCER, AND MOTOR VEHICLE HAVING SUCH A SURROUNDINGS-SENSING DEVICE - A surroundings-sensing device for emitting and/or receiving ultrasonic signals including an ultrasonic transducer, which includes at least one transducer element and at least one resonance body including a front body and a rear body, and including a diaphragm for sound transmission, which is coupled to an end face of the front body, the front body, the transducer element, and the rear body being separably connected to one another, and the front body being fastened on the diaphragm. Further described is a motor vehicle including a bumper, a side mirror, or a door section and at least one such surroundings-sensing device, the diaphragm of the surroundings-sensing device being formed by an outer skin of the bumper, the side mirror, or the door section and the ultrasonic transducer being situated concealed behind the outer skin. | 2016-05-19 |
20160139251 | OBJECT INFORMATION ACQUIRING APPARATUS AND CONTROL METHOD THEREOF, AND ACOUSTIC SIGNAL ACQUIRING APPARATUS AND CONTROL METHOD THEREOF - Provided is an object information acquiring apparatus having: a receiver in which a plurality of receiving elements to receive acoustic signals based on an acoustic wave propagated from an object is disposed on a two-dimensional surface, the plurality of receiving elements being divided into a plurality of receiving element groups including at least one receiving element respectively; a corrector that corrects signals received by the receiver; and a processor that acquires characteristic information in the object using the signals corrected by the corrector, wherein the receiver receives the acoustic signals for each of the plurality of receiving element groups with a time difference, and acquires the received signals, and the corrector corrects a time-based deviation. | 2016-05-19 |
20160139252 | ULTRASOUND DIAGNOSTIC DEVICE, METHOD FOR GENERATING ACOUSTIC RAY SIGNAL OF ULTRASOUND DIAGNOSTIC DEVICE, AND PROGRAM FOR GENERATING ACOUSTIC RAY SIGNAL OF ULTRASOUND DIAGNOSTIC DEVICE - An ultrasound beam is transmitted to an inspection target by determining an opening of a positive phase and an opening of a negative phase corresponding to the opening of the positive phase in advance and inverting the phases with a group of a predetermined number of elements of a probe as each opening, and an ultrasound echo signal generated by interaction between the ultrasound beam and the inspection target is received through the plural elements of the probe. Then, two or more pieces of element data including receiving time information in each element, which are generated by receiving ultrasound echo signals generated for at least two or more overlapping target regions, are stored, and an acoustic ray signal in one scanning line is generated by overlapping the stored element data based on the receiving time information in each element. | 2016-05-19 |
20160139253 | Signal acquisition and distance variation measurement system for laser ranging interferometers - A signal acquisition and distance variation measurement system for laser ranging interferometers comprising a signal acquisition unit. This unit comprises a frequency detection subsystem to detect the frequency of a received laser beam measurement signal which is buried in noise, wherein the subsystem comprises an acquisition subsystem with a wavelet packet decomposition unit and a phase/frequency detector PLL; a main PLL unit being coupled to the frequency detection subsystem for receiving the detected frequency of the measurement signal for phase estimation of the measurement signal; and a phasemeter band detection subsystem for detecting whether the measurement signal frequency is higher or lower than a reference signal frequency of a reference laser beam by operating a known change to the frequency of the reference signal and measuring the consequent change in the frequency of an interference signal for having the phase of reference signal locked to the measurement signal phase. | 2016-05-19 |
20160139254 | Short-Range Point Defense Radar - A multi-beam frequency-modulated continuous wave (FMCW) radar system designed for short range (<20 km) operation in a high-density threat environment against highly maneuverable threats. The multi-beam FMCW system is capable of providing continuous updates, both search and track, for an entire hemisphere against short-range targets. The multi-beam aspect is used to cover the entire field of regard, whereas the FMCW aspect is used to achieve resolution at a significantly reduced computational effort. | 2016-05-19 |
20160139255 | METHOD AND DEVICE FOR THE LOCALIZATION OF A VEHICLE FROM A FIXED REFERENCE MAP - A method and a device for locating a vehicle from a fixed reference map in which objects are assigned one or more positions in the reference map. At successive points of a vehicle trajectory, in each case a radar impulse is emitted and subsequently, angle-resolved and time-resolved measurements of the radar impulse response are performed. Object positions are identified in the environment surrounding the vehicle from the radar impulse response, the current identified object positions forming an environment map. The vehicle position is identified in the reference map by comparing the environment map to the reference map, the reference map being created from the identified positions and is continuously updated. An object classification for the identified object positions in the current environment map and/or reference map is performed and the identification of the vehicle position is performed while taking the object classification into account. | 2016-05-19 |
20160139256 | METHOD OF SYSTEM COMPENSATION TO REDUCE THE EFFECTS OF SELF INTERFERENCE IN FREQUENCY MODULATED CONTINUOUS WAVE ALTIMETER SYSTEMS - An altimeter system is provided. The altimeter system includes a receiver mixer including an antenna-input and a local-oscillator-input; a transceiver circulator communicatively coupled to an antenna via a transmission line having a selected length and communicatively coupled to the antenna-input of the receiver mixer; and a transmitter configured to output a transmitter signal to the antenna via the transceiver circulator. The transmitter signal is frequency modulated with a linear ramp. The transmitter is communicatively coupled to the receiver mixer to input a local oscillator signal at the local-oscillator-input of the receiver mixer. The receiver mixer is communicatively coupled to input a target-reflected signal from the antenna at the antenna-input of the receiver mixer. The selected length of the transmission line is set so that a composite-leakage signal at the antenna-input of the receiver mixer has a linear phase across a sweep bandwidth. | 2016-05-19 |
20160139257 | FMCW RADAR DEVICE AND FMCW RADAR SIGNAL PROCESSING METHOD - The FMCW radar device includes: a range observation period setting section configured to set a plurality of range observation periods; a modulated frequency width setting section configured to set, for the respective plurality of range observation periods, a plurality of modulated frequency widths; a beat signal generation section configured to generate, for the respective plurality of range observation periods, beat signals based on the transmission signal and the reception signal; and a pass bandwidth setting section configured to set pass bandwidths of the beat signals generated by the beat signal generation section, in which the modulated frequency width setting section sets, for the respective plurality of range observation periods, the plurality of modulated frequency widths so that a difference among maximum frequencies of the beat signals generated for the respective plurality of range observation periods becomes zero or falls within a predetermined range. | 2016-05-19 |
20160139258 | PORTABLE MICROWAVE FREQUENCY IMAGING DEVICE, SYSTEM COMPRISING SUCH A DEVICE AND CORRESPONDING IMAGING METHOD - The present invention provides a portable imaging device | 2016-05-19 |
20160139259 | MODULAR SUPERHETERODYNE STEPPED FREQUENCY RADAR SYSTEM FOR IMAGING - In some aspects, the disclosure is directed methods and systems for establishing a wideband radar system for imaging. A receiver of a radar imaging system may receive a set of phase measurements for each of a plurality of frequency bands, each of the plurality of frequency bands established by up-converting or down-converting a base frequency band. A phase adjuster of the radar imaging system may identify, from each region of overlap between consecutive frequency bands of the plurality of frequency bands, a phase difference between corresponding sets of the phase measurements. The phase adjuster may adjust one or more sets of the phase measurements based on the identified phase differences to generate an image across the plurality of frequency bands. | 2016-05-19 |
20160139261 | Reduction of Receive Data of a Radar, in Particular, a Synthetic Aperture Radar - A method for the reduction of receive data of a radar includes receiving a radar echo signal emanating from a chirp-like transmit signal and specifying a temporal receive window of the radar echo signal as a function of an area to be detected by a radar. The method also includes dividing the received radar echo signal into a plurality of spectral sub-bands, determining sub-band windows for each of the plurality of spectral sub-bands, activating the sub-band windows within the temporal receive window of the radar echo signal as a function of a receive time of the radar echo signal, and then sampling the radar echo signal using a sampling rate that is adjusted as a function of a number of sub-band windows active at a respective sampling instance. | 2016-05-19 |
20160139262 | Method for distinguishing between real obstacles and apparent obstacles in a driver assistance system for motor vehicle - In a method for distinguishing between real obstacles and apparent obstacles using a driver assistance system for motor vehicles equipped with a position finding system for determining one's own location, as well as a radar sensor for measuring the distances and relative velocities of radar targets, positional information for radar targets recognized as apparent obstacles is stored in a database, and when the driver assistance system recognizes a stationary radar target at a specific location, the driver assistance system queries the database whether an apparent obstacle is stored for this location | 2016-05-19 |
20160139263 | FORWARD FACING SENSING SYSTEM FOR VEHICLE - A forward facing sensing system for a vehicle includes a radar sensor device disposed at the vehicle and having a sensing direction forward of the vehicle and an image sensor disposed behind the vehicle windshield so as to view forward of the vehicle through the windshield. A control includes an image processor operable to analyze image data captured by the image sensor in order to, at least in part, detect an object present forward of the vehicle. The control, responsive at least in part to processing of captured image data by the image processor and to sensing by the radar sensor, determines that a potentially hazardous condition may exist in the path of forward travel of the vehicle. The radar sensor device and the image sensor collaborate in a way that enhances determination of existence of the potentially hazardous condition in the path of forward travel of the vehicle. | 2016-05-19 |
20160139264 | Method for Determining a Distance Between an FMCW Ranging Device and a Target - A method for determining a distance between a ranging device and target, wherein a valid interference profile, if already available, is subtracted from a frequency-domain echo profile that is analyzed to determine the distance of the target, where to obtain or update the valid interference profile, a low-frequency portion of the frequency-domain echo profile is stored as a temporary interference profile after each measurement, and if the target is not proximal to the ranging device and the valid interference profile is not available, the temporary interference profile is saved as the valid interference profile, otherwise if the valid interference profile is available, the valid interference profile is updated via the temporary interference profile, otherwise if the target is distal and the valid interference profile is not yet available, the temporary interference profile is first subjected to a quality check before being saved as the valid interference profile. | 2016-05-19 |
20160139265 | EYEWEAR-MOUNTABLE EYE TRACKING DEVICE - An eye movement tracking device that can be mounted to standard eyeglasses as disclosed. The device comprises an illumination source, a time-of-flight (TOF) camera and a processor. The source transmits energy within a frequency band from a location proximate to an eye of a person, such that at least a first portion of the transmitted energy is reflected off a lens of eyewear worn by the person to subsequently reflect off the eye, and such that at least a second portion of the transmitted energy is transmitted through the lens to reflect off objects in the person's environment. The TOF camera detects reflections of at least the first portion of the transmitted energy, and distinguishes them from other energy detected by the TOF camera in said frequency band, based on TOF principles. The processor uses the detected reflections of the first portion of the transmitted energy to determine eye position. | 2016-05-19 |
20160139266 | METHODS AND APPARATUS FOR PHASED ARRAY IMAGING - A method of imaging a scene includes generating a temporally varying optical intensity pattern from at least one continuous wave (CW) light beam. The method also includes illuminating at least one portion of the scene with the temporally varying optical intensity pattern so as to cause a photon to scatter or reflect off the at least one portion of the scene. The photon reflected or scatted from the at least one portion of the scene is detected using a single-photon detector. Based on the temporally varying optical intensity pattern and a time of flight of the photon detected, a distance between the single-photon detector and the at least one portion of the scene is estimated. | 2016-05-19 |
20160139267 | MOVEMENT DETECTION DEVICE CAPABLE OF DETECTING THREE-DIMENSIONAL MOTIONS - The present invention relates to a movement detection device for detecting a movement of an object in a space range. The movement detection device includes a light source, a light guiding element, at least two light sensing elements and a processing unit. The light sensing elements have an offset therebetween along a first direction such that the object, when moving in the space range, reflects the light from the light source sequentially to the light sensing elements through the light guiding element. The processing unit identifies the movement of the object along the first direction according to a sequence that the light sensing elements detect the light reflected by the object. | 2016-05-19 |
20160139268 | VISUAL DISPLAY WITH ILLUMINATORS FOR GAZE TRACKING - A visual display includes hidden reference illuminators adapted to emit invisible light for generating corneo-scleral reflections on an eye watching a screen surface of the display. The tracking of such reflections and the pupil center provides input to gaze tracking. A method for equipping and an LCD with a reference illuminator are also provided. Also provides are a system and method for determining a gaze point of an eye watching a visual display that includes reference illuminators. The determination of the gaze point may be based on an ellipsoidal cornea model. | 2016-05-19 |
20160139269 | ELEVATOR SHAFT INTERNAL CONFIGURATION MEASURING DEVICE, ELEVATOR SHAFT INTERNAL CONFIGURATION MEASUREMENT METHOD, AND NON-TRANSITORY RECORDING MEDIUM - According to one embodiment, an elevator shaft internal configuration measuring device includes a position calculator and a calculating unit. The position calculator derives a positional information of a moving object moving through an interior of an elevator shaft having an inner side. The calculating unit calculates a configuration of the elevator shaft based on an operation information, a distance data, and the positional information. The operation information relates to an operation of a holder holding a laser rangefinder mounted to the moving object. The distance data is obtained from the laser rangefinder. The operation includes switching between a first state and a second state based on the positional information. The laser rangefinder irradiates the laser light onto a first region of the inner side in the first state. The laser rangefinder irradiates the laser light onto a second region of the inner side in the second state. | 2016-05-19 |
20160139270 | A Network-Aided Method, Terminal and Network Side Device for Satellite Navigation and Positioning - Disclosed are a network-aided method, user equipment, and network side device for satellite navigation and positioning, related to the field of satellite navigation and positioning. The network-aided satellite navigation and positioning method includes: a user equipment sending a network side an auxiliary positioning information request containing an indication of providing ionospheric auxiliary information (A | 2016-05-19 |
20160139271 | GNSS POSITIONING SYSTEM EMPLOYING A RECONFIGURABLE ANTENNA SUBSYSTEM - The system includes a reconfigurable GNSS antenna subsystem that dynamically reconfigures one or more antenna parameters to change one or more operating characteristics of an antenna based on environmental conditions and/or the presence of interfering signals to improve the quality of GNSS satellite signal reception. The system analyses the received signals to determine if the GNSS satellite signals are sufficiently above received noise, if interfering signals are present, and/or if multipath signals are adversely impacting position calculations. Based on the analysis, the reconfigurable antenna subsystem selectively and dynamically reconfigures one or more parameters to change one or more operating characteristics of the antenna. As the conditions change, the reconfigurable antenna subsystem may dynamically reconfigure one or more of the antenna parameters accordingly. | 2016-05-19 |