10th week of 2016 patent applcation highlights part 35 |
Patent application number | Title | Published |
20160069906 | HEALTH TEST FOR A BROAD SPECTRUM OF HEALTH PROBLEMS - Provided herein are methods and devices for the detection of conditions or disorders by detecting altered levels of stress response pathway biomarkers. Also provided are methods and reagents for identifying panels of biomarkers associated with a condition or disorder. | 2016-03-10 |
20160069907 | RGMa Fragment Based Diagnostic Assay - Provided are diagnostic assays and method s of using the diagnostic assays for detecting and quantifying RGMa fragments in a sample. The methods may be used detection of the RGMa fragments to monitoring drug treatment and effectiveness of drug treatment in neurodegenerative diseases. | 2016-03-10 |
20160069908 | METHODS FOR ANALYZING BLOOD TO DETECT DISEASES ASSOCIATED WITH ABNORMAL PROTEIN AGGREGATION - A method of detecting a disease associated with abnormal protein aggregation in a subject is provided, the method comprising (a) contacting non-plasma blood elements from the subject with a probe that binds to pathogenic protein aggregates, and (b) detecting the probe bound to the pathogenic protein aggregates, wherein the presence of pathogenic protein aggregates in the non-plasma blood elements is indicative that the subject has a disease associated with abnormal protein aggregation. In one embodiment, the disease is Alzheimer's disease, mild cognitive impairment or traumatic brain injury. | 2016-03-10 |
20160069909 | REAGENT KIT, MEASUREMENT KIT, AND METHOD OF MEASURING TEST SUBSTANCE - The present invention provides a reagent kit which is used for measuring a test substance in a biological sample and can improve measurement sensitivity of the test substance; measurement kit; and a method of measuring the test substance. Provided is a reagent kit which is used for measuring the above-described test substance in the biological sample and contains first particles which are modified by a first binding substance having specific binding properties with respect to the test substance and have a label, and a compound which has at least one amino group having a positive charge. | 2016-03-10 |
20160069910 | DETECTING ENDOCRINE DISRUPTING COMPOUNDS - A method and a detection device for detecting endocrine disrupting compounds are provided. The detection device includes a support structure and ligand binding domains (LBD) of at least one sex hormone receptor, immobilised on the support structure. The detection device further includes a linker molecule between the support structure and the ligand binding domains, for immobilising the LBD's on the support structure. | 2016-03-10 |
20160069911 | NON INVASIVE METHOD FOR PRENATAL DIAGNOSIS - The invention pertains to a method which allows separation of nucleated fetal cells, particularly fetal erythroblasts, from maternal peripheral blood. More specifically the invention relates to a non-invasive method which can isolate and provide intact nucleated fetal cells, and is useful for subsequent chromosome, gene expression and protein investigations, and is feasible at ail gestational ages. | 2016-03-10 |
20160069912 | DNA-based molecular switches and uses thereof - Disclosed are nucleic acid-based molecular switches that respond to changes in pH. The switches may be used in DNA nanodevices. The switches may also act as sensors for measuring the pH of a sample, including cells, regions thereof, and whole organisms. The switch includes an A-motif that forms at acidic pH. Also disclosed are compositions and methods for measuring the pH of cells or regions thereof, such as vesicles, the nucleus, mitochondrial matrix, or the Golgi lumen. | 2016-03-10 |
20160069913 | MICROFLUIDIC CHIP-BASED, UNIVERSAL COAGULATION ASSAY - A microfluidic, chip-based assay device has been developed for measuring physical properties of an analyte (particularly, whole blood or whole blood derivatives). The technologies can be applied to measure clotting times of whole blood or blood derivatives, determine the effects of anticoagulant drugs on the kinetics of clotting/coagulation, as well as evaluate the effect of anticoagulant reversal agents. These technologies can additionally be used to optimize the dosage of anticoagulation drugs and/or their reversal agents. The assay is independent of the presence of anticoagulant; clotting is activated by exposure of the blood sample in the device to a glass (or other negatively charged material such as oxidized silicon) surface, which activates the intrinsic pathway and can be further hastened by the application of shear flow across the activating materials surface. The absence of chemical activating agents and highly controlled and reproducible micro-environment yields a point of care universal clotting assay. | 2016-03-10 |
20160069914 | THE DETECTION OF RESTENOSIS RISK IN PATIENTS RECEIVING A STENT - Provided is a method of selecting a stent for implantation in the circulatory system of a human being. The method comprises obtaining a blood sample from a patient who requires implantation of a stent and testing said blood sample to determine a platelet coagulability level. The determined platelet coagulability level of said blood sample is compared with a threshold level of blood platelet coagulability. A determined platelet coagulability level above said threshold level indicates that a risk of restenosis is relatively high. If the determined platelet coagulability level is below said threshold level, a bare metal stent is selected. If the determined platelet coagulability level is at or above said threshold level, a drug-eluting stent is selected. | 2016-03-10 |
20160069915 | MODULATORS OF PHARMACOKINETIC PROPERTIES OF THERAPEUTICS - The present application provides for a compound of Formula IV, | 2016-03-10 |
20160069916 | DEVICES, SYSTEMS AND METHODS FOR SAMPLE PREPARATION - Devices, systems and methods including a sonicator for sample preparation are provided. A sonicator may be used to mix, resuspend, aerosolize, disperse, disintegrate, or de-gas a solution. A sonicator may be used to disrupt a cell, such as a pathogen cell in a sample. Sample preparation may include exposing pathogen-identifying material by sonication to detect, identify, or measure pathogens. A sonicator may transfer ultrasonic energy to the sample solution by contacting its tip to an exterior wall of a vessel containing the sample. Multipurpose devices including a sonicator also include further components for additional actions and assays. Devices, and systems comprising such devices, may communicate with a laboratory or other devices in a system for sample assay and analysis. Methods utilizing such devices and systems are provided. The improved sample preparation devices, systems and methods are useful for analyzing samples, e.g. for diagnosing patients suffering from infection by pathogens. | 2016-03-10 |
20160069917 | LOW CARRYOVER LIQUID HANDLING PROBE FOR AN AUTOMATED ANALYZER - Provided herein is a carryover-reducing liquid handling probe for an analytical system, incorporating a rigid sheath and a polymer core that extends from the sheath to act as the fluid contact surface. | 2016-03-10 |
20160069918 | BIOLOGICAL SAMPLE PROCESSING - Systems and methods are provided for processing a biological sample. In one embodiment, the method comprises receiving a sample vessel containing the sample; retrieving information from an information storage unit associated with the sample; using said information for selecting at least one cartridge from at least two or more different cartridges, each configured for use with a sample processing device; loading at least one or more reagents onto the cartridge, wherein the one or more reagents to be added are selected based at least in part on the information or instructions derived from the information; and placing the sample vessel in the cartridge. | 2016-03-10 |
20160069919 | SYSTEMS AND METHODS FOR MULTI-ANALYSIS - Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample. | 2016-03-10 |
20160069920 | SYSTEMS AND METHODS FOR MULTI-ANALYSIS - Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample. | 2016-03-10 |
20160069921 | SYSTEMS AND METHODS FOR MULTI-ANALYSIS - Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample. | 2016-03-10 |
20160069922 | AUTOMATIC ANALYZER - A detergent reservoir reserves detergent for cleaning of a sample probe and includes a cleaning liquid supply port, a detergent supply port, and a waste liquid port When a predetermined condition for execution of cleaning of the detergent reservoir is not satisfied, and a remaining amount of the detergent reserved in the detergent reservoir is a predetermined amount or less, a pump is operated to increase the remaining amount of the detergent to the predetermined amount; and when the predetermined condition for execution of cleaning of the detergent reservoir is satisfied, a solenoid valve is opened to dispose of the detergent in the detergent reservoir. Then, after the detergent in the detergent reservoir is disposed of, the solenoid valve is closed, and a pump is operated to supply cleaning liquid to the detergent reservoir. | 2016-03-10 |
20160069923 | WHEEL SPEED SENSOR - A wheel speed sensor is provided that makes it possible to suppress unnecessary deformation when crimping a cover. A wheel speed sensor has a sensor head in which a sensor is accommodated, and a tube-shaped metallic cover that covers a portion of the sensor head and protects the sensor head. The cover has multiple protruding pieces on an opening portion, and is fixed against the sensor head by the protruding pieces being crimped toward the sensor head. | 2016-03-10 |
20160069924 | Wind Direction Indicator - A wind direction indicator for hunters includes a smoke generator, a housing, an electrical power source, an air pump and a switch all arranged such that the indicator may be actuated by a hunter using a single hand. The smoke generator may be a cartomizer as an example. | 2016-03-10 |
20160069925 | APPARATUS AND METHOD TO AID IN FINDING MISPLACED, FORGOTTEN, OR UNUSED ITEMS - Devices to aid in finding items, including purses or other luggage, along with methods of operation of the devices. The resultant movement of an item during use, and lack of movement of an item during non-use, are exploited to alert a user to the whereabouts of the item through adaptive techniques. A device is located with the item, purse, or other luggage, and configured to sense motion information. Location notification may be based on such motion information. | 2016-03-10 |
20160069926 | ACCELERATION SENSOR AND METHOD OF MANUFACTURING THE SAME - There is provided an acceleration sensor in which outer surfaces of a plurality of beams in which piezo-resistive elements are provided and upper portions of a mass body and a support body connected to the plurality of beams may be enclosed by a protective layer to prevent electrical disturbances from being transferred from an external environment to the piezo-resistive elements. | 2016-03-10 |
20160069927 | ACCELERATION SENSOR - An acceleration sensor includes a fixing portion, a weight portion, a detection beam, support beams, and a metal wiring. The weight portion is supported on the fixing portion so as to be freely displaced. The detection beam is connected to the fixing portion and the weight portion and piezoresistive elements are provided on the detection beam. The support beams are provided separately from the detection beam and are connected to the fixing portion and the weight portion. Both ends of the metal wiring are extended to the fixing portion and the metal wiring is wired so as to pass through the support beams. | 2016-03-10 |
20160069928 | Acceleration Sensor and Method for Producing an Acceleration Sensor - The invention relates to an acceleration sensor, comprising a substrate having a substrate surface and a sample mass that is movable relative to the substrate in a first direction (x) parallel to the substrate surface. The sample mass has a comb-like electrode that is movable together with the sample mass and has a plurality of teeth, which extend in the first direction (x). The acceleration sensor further comprises a counter-electrode fixedly connected to the substrate, which counter-electrode has a fixed comb-like electrode and wherein said fixed comb-like electrode has a plurality of teeth which extend in a direction opposite to the first direction (x). The teeth of the movable comb-like electrode engage with the teeth of the fixed comb-like electrode. The acceleration sensor further comprises a shielding electrode fixedly connected to the substrate and which is suitable for increasing a pneumatic damping of the sample mass during a deflection movement of the sample mass. | 2016-03-10 |
20160069929 | CALIBRATION STANDARD WITH PRE-DETERMINED FEATURES - Provided herein in an apparatus, including a substrate; a functional layer, wherein the functional layer has a composition characteristic of a workpiece of an analytical apparatus; and pre-determined features configured to calibrate the analytical apparatus. Also provided herein is an apparatus, including a functional layer overlying a substrate; and pre-determined features for calibration of an analytical apparatus configured to measure the surface of a workpiece, wherein the functional layer has a composition similar to the workpiece. Also provided herein is a method, including providing a lithographic calibration standard having a functional layer to an analytical apparatus, wherein the functional layer has a composition characteristic of a workpiece of the analytical apparatus; providing calibration standard specifications to a computer interfaced with the analytical apparatus; and calibrating the analytical apparatus in accordance with calibration standard readings and the calibration standard specifications. | 2016-03-10 |
20160069930 | STATIC ELECTRICITY NEUTRALIZING DEVICE AND STATIC ELECTRICITY NEUTRALIZING METHOD - To neutralize static electricity in a charged coaxial cable with a decreased installation space. The first base member | 2016-03-10 |
20160069931 | METHOD AND SYSTEM FOR COUNTING SOCKET INSERTIONS OF ELECTRONIC INTEGRATED CIRCUITS - A method and electronic device for identifying when to replace/clean a probe card or socket are provided. The method includes receiving an ID of the probe card or socket from a tag associated with the probe card or socket before performing an insertion on a test system. For the received ID, there is determined a count of insertions performed on the probe card, and an indication to replace/clean the probe card or socket is generated when the count of insertions equals the threshold value. | 2016-03-10 |
20160069932 | A MEASURING DEVICE AND MEASURING METHOD WITH MULTIPLE DISPLAY - The invention relates to a measuring device and a measurement method for the display of a measurement signal connected to the measuring device. The measuring device comprises a measurement-signal input, a measurement-parameter input, a calculation unit and a display unit for the display of calculated statistical signals. The measuring device is set up to display a plurality of statistical signals in parallel on the display unit in real-time. | 2016-03-10 |
20160069933 | POWER METER WITH AUTOMATIC CONFIGURATION - A power monitoring system includes a plurality of current sensors suitable to sense respective changing electrical current within a respective conductor to a respective load and a conductor sensing a respective voltage potential provided to the respective load. A power monitors determines a type of circuit based upon a signal from at least one of the current sensors and a signal from the conductor, wherein the type of circuit includes at least one of a single phase circuit, a two phase circuit, and a three phase circuit. The power meter configures a set of registers corresponding to the determined type of circuit in a manner such that the configuring is different based upon each of the single phase circuit, two phase circuit, and three phase circuit suitable to provide data corresponding to the determined type of circuit. | 2016-03-10 |
20160069934 | Distribution Line Clamp Force Using DC Bias on Coil - A power distribution monitoring system is provided that can include a number of features. The system can include a plurality of monitoring devices configured to attach to individual conductors on a power grid distribution network. In some embodiments, a monitoring device is disposed on each conductor of a three-phase network and utilizes a split-core transformer to harvest energy from the conductors. The monitoring devices can be configured to harvest energy from the AC power grid and apply a DC bias to core halves of the split-core transformer to maintain a positive magnetic force between the core halves. Methods of installing and using the monitoring devices are also provided. | 2016-03-10 |
20160069935 | DETECTION OF GEOMAGNETICALLY-INDUCED CURRENTS WITH POWER LINE-MOUNTED DEVICES - A device for use in a power transmission system to sense GICs. The device may be a part of a reactance-injecting device on a power line, it may be a standalone device, or it may be a part of another type of device. The device may include a sensor to sense magnetic fields (e.g., a Hall effect sensor). The sensor may be positioned in the air gap of a magnetic core formed concentrically around the power line. The signal from the sensor may be converted to a digital signal and separately processed to determine the magnitude of the AC current and the magnitude of the DC (or quasi-DC) current. If the output signal of another A/C current sensor is available, that output signal may be used to adjust/calibrate the determined magnitude of the DC current. The sensor may communicate with other devices in a network to provide GIC information. | 2016-03-10 |
20160069936 | OPTICAL SENSOR ASSEMBLY FOR INSTALLATION ON A CURRENT CARRYING CABLE - An optical sensor assembly, for installation on a current carrying cable, senses the current in the cable and provides an electrical output indicating the current. To sense the current, a magnetic concentrator is placed in close proximity to the cable and creates a magnetic field representing current in the cable. An optical current sensor, within the created magnetic field, exposes a beam of polarized light to the magnetic field. The beam of polarized light is rotated thereby, by Faraday effect, according to the current in the cable. The amount of rotation is analyzed and converted to electrical signals to portray the current in the cable. The electrical signals may be processed, evaluated and analyzed to provide one or more of several elements of quality of the current in the cable. | 2016-03-10 |
20160069937 | VOLTAGE SENSING UNIT FOR SENSING VOLTAGE OF HIGH-POWER LINES USING A SINGLE-CONTACT POINT AND METHOD OF USE THEREOF - A method is provided of ascertaining an unknown line (conductor) voltage at point X on a power line within an electrical grid comprises collecting raw voltage at or about Point X using a sensor; gathering additional data from data collection sources upstream (comprising, for example a substation) and/or downstream (comprising, for example, smart meters) to Point X (constraining data); using raw voltage, and environment and line data (comprising at least one of GPS location of sensor, GIS data of the electrical grid, phase, type of conductor, total load on conductor), to calculate voltage range at Point X; and using constraining data sequentially to bind (narrow and tighten) the voltage range from a determined range of possibilities to a likely absolute voltage measurement. | 2016-03-10 |
20160069938 | INPUT VOLTAGE DETECTION CIRCUIT WITH A PARAMETER SETTING FUNCTION APPLIED IN A POWER CONVERTER AND PARAMETER SETTING AND CIRCUIT PROTECTING METHOD THEREOF - A parameter setting and circuit protecting method applied in a power converter are disclosed. An input voltage of the power converter is detected to generate a first detecting signal related to the input voltage. The first detecting signal will be thence compared with a threshold so as to generate a protecting signal for protecting the power converter. When a parameter setting signal is triggered, a current is provided so as to make the first detecting signal to generate a variation, thereby setting a parameter in accordance with the variation. | 2016-03-10 |
20160069939 | LOW POWER SMALL AREA OSCILLATOR-BASED ADC - In one embodiment, a method for measuring current comprises generating a sensor current based on a current being measured. The method also comprises converting a combined current into a first frequency, wherein the combined current is a sum of the sensor current and a common-mode current, and converting the first frequency into a first count value. The method further comprises converting the common-mode current into a second frequency, converting the second frequency into a second count value, and subtracting the second count value from the first count value to obtain a current reading. | 2016-03-10 |
20160069940 | POWER DETECTOR AND ASSOCIATED METHOD FOR ELIMINATING THE DIFFERENCE OF I-V PHASE DIFFERENCE BETWEEN TRANSMISSION PATH AND DETECTION PATH - A power detector for detecting an output power of a power amplifier is provided. The power amplifier is used to transmit signal power to the antenna. The power detector includes a phase shifter, a multiplier and a calibration unit. The phase shifter sequentially applies a plurality of candidate phase calibration amounts to the output voltage of the power amplifier to generate a plurality of adjusted signals with different phases in a calibration mode. The multiplier sequentially mixes the replica current and each of the plurality of adjusted signals, to generate a plurality of analog signals with different phases. The calibration circuit determines a target phase calibration amount of the phase shifter from the candidate phase calibration amounts according to the plurality of analog signals. | 2016-03-10 |
20160069941 | POWER METER HAVING MULTIPLE ETHERNET PORTS - A power meter or other electrical device is provided having two independent and communicatively isolated Ethernet ports. The first Ethernet port is addressable by a first unique identifier and is configured for enabling full access to the power meter via an internal LAN. This enables a LAN operator to remotely access the power meter via the internal LAN for performing metering functions, such as full telemetry, control and programming. The second Ethernet port is addressable by a second unique identifier and is configured for being connected to the Internet. Since the second Ethernet port is communicatively isolated from the first Ethernet port, a user can access the power meter via the Internet, but cannot access the internal LAN by connecting to the power meter via the Internet. | 2016-03-10 |
20160069942 | INTERNAL LINE REPLACEABLE UNIT HIGH INTENSITY RADIATED FIELD DETECTOR - Various embodiments for detecting a High Intensity Radiated Field (HIRF) in a Line Replaceable Unit (LRU) are provided. The internal detector may be used to test EMI filter pin connectors of a closed LRU. For example, a method comprises setting a selecting switch to a test connector position, thereby connecting a RF signal generator to a testing connection cable. The method further comprises causing the generator to generate a test signal as input into the testing connection cable, and determining if an internal HIRF detector has detected the signal. If the signal is detected, the method further comprises, for each EMI filter pin connector in the LRU, switching the selecting switch to a corresponding test cable coupled to an EMI filter pin connector, causing the generator to generate the test signal as input into the corresponding test cable; and determining if the detector has detected the signal. | 2016-03-10 |
20160069943 | WIRELESS MODULE, ELECTRONIC MODULE, AND MEASURING METHOD - A wireless module includes a substrate, an antenna provided on a surface of the substrate, and a circuit, provided on the substrate, and configured to transmit and receive signals through the antenna. The antenna includes a terminal provided on a tip end part thereof. | 2016-03-10 |
20160069944 | HIGH-POWERED HIGH-VOLTAGE TEST DEVICE - A high-powered, high-voltage test device is provided comprising means for generating a test voltage, wherein the test voltage is an alternating voltage having an amplitude of at least 100 kV at a power of greater than 1 kW. Said means for generating the test voltage have at least two voltage amplifier branches, of which a first voltage amplifier branch contributes to generating the positive voltage half-cycles of the test voltage and a second voltage amplifier branch contributes to generating the negative voltage half-cycles of the test voltage. The high-voltage test device furthermore has a measurement circuit for measuring the test voltage to be applied to a measurement object and the test current consequently caused in the measurement object and is characterized in that each voltage amplifier branch is installed in a separate assembly having integrated active air cooling. | 2016-03-10 |
20160069945 | Method for Detecting a Faulty Connection of an Auxiliary Battery - A method for detecting a faulty connection of an auxiliary battery ( | 2016-03-10 |
20160069946 | SEMICONDUCTOR INSPECTION APPARATUS - The semiconductor inspection apparatus according to an embodiment includes a first detecting unit capable of being electrically connected to a source electrode of a field effect transistor to be evaluated, the first detecting unit used for detecting voltage, a first diode including a first anode electrode and a first cathode electrode, the first cathode electrode capable of being electrically connected to a drain electrode of the field effect transistor, a second detecting unit electrically connected to the first anode electrode, the second detecting unit used for detecting voltage, a first resistance element of which a first end is electrically connected to the first anode electrode, and a first electric power source electrically connected to a second end of the first resistance element. | 2016-03-10 |
20160069947 | METHOD AND APPARATUS FOR TESTING DISPLAY PANEL - A method and an apparatus for testing a display panel are provided. The apparatus comprises an interface circuit for connecting to the display panel to be tested, and a test circuit for generating a test signal to the display panel through the interface circuit in a test state for a display panel, and for generating an adjustment signal to the display panel through the interface circuit in a predetermined state for the display panel, wherein at least a portion of an afterimage signal in the display panel is reduced by the adjustment signal. | 2016-03-10 |
20160069948 | ANALYZING APPARATUS - An analyzing apparatus for a semiconductor device includes an image acquiring unit configured to acquire an image of a sample and generate image data of the acquired image, a specifying unit configured to specify a failure position of the sample based on the image data, and a marking unit configured to make a mark on a surface position of the sample that corresponds to the failure position as specified by the specifying unit. | 2016-03-10 |
20160069949 | SEMICONDUCTOR TEST SYSTEM AND METHOD - A test controller applies test stimulus signals to the input pads of plural die on a wafer in parallel. The test controller also applies encoded test response signals to the output pads of the plural die in parallel. The encoded test response signals are decoded on the die and compared to core test response signals produced from applying the test stimulus signals to core circuits on the die. The comparison produces pass/fail signals that are loaded in to scan cells of an IEEE 1149.1 scan path. The pass/fail signals then may be scanned out of the die to determine the results of the test. | 2016-03-10 |
20160069950 | DEVICES UNDER TEST - A system can include a plurality of device under test (DUT) cells. Each DUT cell can include a DUT and a plurality of switches configured to control a flow of current to the DUT. The system can further include a controller configured to execute a plurality of test to the plurality of DUTs in the plurality of DUT cells. Each of the plurality of tests comprises applying a measurement condition to a given DUT of the plurality of DUTs and concurrently applying a stress condition to the remaining DUTs of the plurality of DUTs, wherein the plurality of tests can provide measurements sufficient to determine a bias thermal instability and a time dependent dielectric breakdown of the given DUT. | 2016-03-10 |
20160069951 | METHOD FOR DETERMINING SET VALUE OF PRESSURE FOR INSPECTION IN WAFER INSPECTION APPARATUS - In a method for determining a set value of a pressure for inspection in a wafer inspection apparatus, a surrounding space sealable between a chuck top and a probe card by a vacuum mechanism is evacuated and a highest negative pressure in the surrounding space is measured as a reference pressure when the chuck top has floated by the evacuation. Then as a reference height position, a height position of the chuck top corresponding to the reference pressure is obtained. Further, a pressure in the surrounding space is decreased to a level lower than the reference pressure, the pressure in the surrounding space, when the chuck top reaches a target height position obtained by adding a preset overdrive amount for a press-contact state between the probe card and the wafer to the reference height position, is measured and the measured pressure is set as the set value of the pressure. | 2016-03-10 |
20160069952 | DETECTOR DEVICE FOR FUNCTIONAL CERTIFICATION - A detector device for functional certification includes a probe, a waveguide and a first micro-antenna. The probe includes a tip portion and a through-portion, wherein an end of the through-portion penetrates a first surface of the probe to form a first opening, and an opposite end of the through-portion penetrates the tip portion to form a second opening. The waveguide is disposed in the through-portion. The first micro-antenna is installed in the second opening and electrically connected with the waveguide. | 2016-03-10 |
20160069953 | TEST CIRCUIT DESIGN APPARATUS, TEST CIRCUIT DESIGN PROGRAM, AND TEST CIRCUIT - Test information data includes a signal identifier and time period information which are being associated with a terminal identifier. An overlapping number counting part counts a first type overlapping number for each unit time period, based on the test information data. The first type overlapping number indicates the number of terminal identifiers being associated with time period information indicating an input time period which includes a unit time period and being associated with a first type signal identifier identifying a first type input signal. A determination circuit number decision part decides that the maximum overlapping number among the first type overlapping number of each unit time period is to be a first type determination circuit number. A design data generation part generates design data for a test circuit having the same number of first type determination circuits as the first type determination circuit number. | 2016-03-10 |
20160069954 | SEMICONDUCTOR APPARATUS - A semiconductor apparatus may include a first normal circuit configured to generate a normal signal while operating in a normal operation, and a test signal generation unit configured to generate a test signal in response to a test control signal. The semiconductor apparatus may include a signal transfer unit configured to transfer one of either the normal signal or the test signal, as an internal signal, to a signal line, and a second normal circuit configured to perform the normal operation in response to receiving the internal signal from the signal line. The semiconductor apparatus may include a test operation circuit configured to perform a test operation in response to receiving the internal signal from the signal line. | 2016-03-10 |
20160069955 | SHADOW ACCESS PORT METHOD AND APPARATUS - The disclosure describes a novel method and apparatus for providing a shadow access port within a device. The shadow access port is accessed to perform operations in the device by reusing the TDI, TMS, TCK and TDO signals that are used to operate a test access port within the device. The presence and operation of the shadow access port is transparent to the presence and operation of the test access port. According to the disclosure, the shadow access port operates on the falling edge of the TCK signal while the test access port conventionally operates on the rising edge of the TCK signal. | 2016-03-10 |
20160069956 | CHANNEL CONTROL CIRCUIT AND SEMICONDUCTOR DEVICE HAVING THE SAME - A channel control circuit having a plurality of channels according to an embodiment of the present invention includes: a channel control signal generating block configured to generate a channel control signal capable of selectively controlling an activated state of a channel in response to a combination of a first test mode signal and a second test mode signal; a scan buffer control signal generating block configured to generate a scan buffer control signal in response to the first test mode signal and a scan signal; a clock to buffer control signal generating block configured to generate a clock buffer control signal in response to the channel control signal and the scan buffer control signal; and a clock input buffer configured to generate a clock output signal, which is used as an internal clock of a semiconductor device, in response to the clock buffer control signal. | 2016-03-10 |
20160069957 | DOUBLE DATA RATE TEST INTERFACE AND ARCHITECTURE - A device test architecture and a reduced device test interface are provided to enable efficient testing of embedded cores and other circuits within devices. The reduced device test interface is achieved using a double data rate (DDR) signaling technique between the tester and the device. The DDR test interface allows the tester to interface to test circuits within the device, such as IEEE 1500 and/or IEEE 1149.1 test circuits, to provide high test data bandwidth to the test circuits using a minimum of test interface signals. The test architecture includes compare circuits that allow for comparison of test response data to be performed within the device. The test architecture further includes a memory for storing the results of the test response comparisons. The test architecture includes a programmable test controller to allow for various test control operations by simply inputting an instruction to the programmable test controller from the external tester. Additional features and embodiments of the device test architecture and reduced test interface are also disclosed. | 2016-03-10 |
20160069958 | COMPRESSED SCAN CHAIN DIAGNOSIS BY INTERNAL CHAIN OBSERVATION, PROCESSES, CIRCUITS, DEVICES AND SYSTEMS - Electronic scan circuitry includes a decompressor ( | 2016-03-10 |
20160069959 | SEMICONDUCTOR APPARATUS AND TEST DEVICE THEREFOR - A semiconductor apparatus includes a clock enable signal buffer unit configured to receive an input clock enable signal, and generate an output clock enable signal; a buffer control unit configured to generate a buffer enable signal in response to the output clock enable signal and a test enable signal; an input/output buffer unit configured to receive input patterns and generate output patterns; and a compression test unit configured to test the output patterns and the output clock enable signal according to the test enable signal. | 2016-03-10 |
20160069960 | COULOMB COUNTING USING ANALOG-TO-FREQUENCY CONVERSION - In an analog-to-frequency converting circuit, a set of switches receive a first sense signal indicative of a current and provides a second sense signal that alternates between an original version of the first sense signal and a reversed version of the first sense signal, under control of a switching signal. An integral comparing circuit integrates the second sense signal to generate an integral value and generates a train of trigger signals. Each trigger signal is generated when the integral value reaches a preset reference. A compensation circuit compensates for the integral value with a predetermined value in response to each trigger signal. A control circuit generates the switching signal such that a time interval during which the second sense signal is the original version and a time interval during which the second sense signal is the reversed version are substantially the same. | 2016-03-10 |
20160069961 | SYSTEM FOR MANAGING A BATTERY AND METHOD THEREOF - A system for managing a battery may comprise: an interruption determiner configured to determine an interruption of a vehicle battery voltage; a State Of Charge(SOC) calculator configured to calculate the SOC of the vehicle battery and reset the SOC if the interruption of the battery voltage occurs; and an After Sale Service(AS) generation determiner configured to determine whether the AS of a vehicle component is performed if the interruption of the battery voltage does not occur. | 2016-03-10 |
20160069962 | BATTERY SYSTEM - A battery system includes a battery module having a plurality of assembled batteries. Battery monitoring circuits are provided to correspond to each of the assembled batteries of the battery module. A control circuit controls operation of the battery monitoring circuits. A first signal transmission path transmits signals that are input and output between the battery monitoring circuits and the control circuit. A first isolation element is connected to the control circuit, and a second isolation element is connected to the battery monitoring circuit. The first signal transmission path is isolated from the control circuit by the first isolation element and is isolated from the battery monitoring circuit by the second isolation element. The electrical potential of the first signal transmission path is a floating potential in relation to the electrical potentials of the control circuit and battery monitoring circuits. | 2016-03-10 |
20160069963 | ELECTRICITY STORAGE DEVICE STATE INFERENCE METHOD - The internal impedance |Z| of an electricity storage device is measured at a frequency at which the internal impedance of the electricity storage device does not change with temperature, and the SOC or SOH of the electricity storage device is inferred on the basis of the measured value. Furthermore, the real part R of the internal impedance of the electricity storage device is measured at a frequency at which the real part R of the internal impedance of the electricity storage device does not change with temperature, and the SOC or SOH of the electricity storage device is inferred on the basis of the measured value. | 2016-03-10 |
20160069964 | BATTERY STATE DETECTION DEVICE - In a battery state detection device, a μCOM detects that, during charge by a charge part, a voltage between both electrodes of a secondary battery has reached a predetermined measurement start voltage set higher than a voltage between the both electrodes of the secondary battery at the time of complete discharge, and detects that, during the charge by the charge part, the voltage between the both electrodes of the secondary battery has reached a predetermined measurement finish voltage set higher than the measurement start voltage. Then, the μCOM measures an amount of integrated power given to the secondary battery in a period from the detection of the measurement start voltage to the detection of the measurement finish voltage, and detects an SOH of the secondary battery based on the amount of integrated power measured by integrated power amount measurement unit. | 2016-03-10 |
20160069965 | SYSTEMS AND METHODS FOR TESTING BATTERY TAB ELECTRICAL CONNECTION QUALITY - Systems and methods for determining the quality of battery cell tab electrical connections are presented. In certain embodiments, a first electrical current may be supplied between a first tab group and a second tab group of a battery cell group. A first voltage drop may be measured between the first tab group and the second tab group and a measured cell group resistance may be determined based on the measured first voltage drop. The measured cell group resistance may be compared with a reference cell group resistance to determine a quality of an associated battery cell tab electrical connection. | 2016-03-10 |
20160069966 | Efficient Spin Polarization - In some aspects, polarization of a spin ensemble can be increased using cavity-based techniques. A cavity is coupled with a spin ensemble, and a drive field generates an interaction between the cavity and the spin ensemble. In some cases, the interaction increases the polarization of the spin ensemble faster than the thermal (T | 2016-03-10 |
20160069967 | APPARATUS AND SYSTEM FOR IMAGING AN INTUBATED PATIENT - The present application discloses a gradient coil apparatus for a Magnetic Resonance Imaging (MRI) system that comprises a cylindrical gradient coil assembly having a length along an axis and comprising an X-gradient coil, a Y-gradient coil and a Z-gradient coil. The gradient coil assembly further comprises an intubation channel, wherein the intubation channel extends radially from the axis and along at least a portion of the length. | 2016-03-10 |
20160069968 | LOW FIELD MAGNETIC RESONANCE IMAGING METHODS AND APPARATUS - According to some aspects, a laminate panel is provided. The laminate panel comprises at least one laminate layer including at least one non-conductive layer and at least one conductive layer patterned to form at least a portion of a B | 2016-03-10 |
20160069969 | MAGNETIC RESONANCE IMAGING APPARATUS AND RF COIL - In a magnetic resonance imaging apparatus, a transmission RF coil is configured to emit an RF pulse generated by using a first clock. In addition to an echo signal emitted from a patient, a reception RF coil is configured to further receive the RF pulse emitted by the transmission RF coil and configured to transmit, via a wireless communication, a multiplexed signal in which the echo signal digitalized by using a second clock, the RF pulse, and the second clock are multiplexed together. Wireless receiving circuitry is configured to receive the multiplexed signal via a wireless communication. Correcting circuitry is configured to correct the phase of the echo signal on the basis of the RF pulse and the second clock restored from the multiplexed signal received via the wireless communication. Reconstructing circuitry is configured to reconstruct an image by using the corrected echo signal. | 2016-03-10 |
20160069970 | NOISE SUPPRESSION METHODS AND APPARATUS - According to some aspects, a method of suppressing noise in an environment of a magnetic resonance imaging system is provided. The method comprising estimating a transfer function based on multiple calibration measurements obtained from the environment by at least one primary coil and at least one auxiliary sensor, respectively, estimating noise present in a magnetic resonance signal received by the at least one primary coil based at least in part on the transfer function, and suppressing noise in the magnetic resonance signal using the noise estimate. | 2016-03-10 |
20160069971 | THERMAL MANAGEMENT METHODS AND APPARATUS - According to some aspects, a thermal management component adapted to cool, when present, at least one component of a magnetic resonance imaging (MRI) system is provided. The thermal management component is adapted to reduce or eliminate eddy current production during operation of the MRI system. The thermal management component comprises at least one conduit configured to circulate coolant, and at least one thermally-conductive substrate coupled to the at least one conduit and configured to transfer heat from the at least one component to the coolant when circulated through the at least one conduit, wherein the at least one thermally-conductive substrate is configured to reduce or eliminate eddy current production | 2016-03-10 |
20160069972 | FERROMAGNETIC AUGMENTATION FOR MAGNETIC RESONANCE IMAGING - In some aspects, a magnetic system for use in a low-field MRI system. The magnetic system comprises at least one electromagnet configured to, when operated, generate a magnetic field to contribute to a B | 2016-03-10 |
20160069973 | COMBINED MAGNETIC RESONANCE-EMISSION TOMOGRAPHY DEVICE, AND METHOD FOR IMAGING AN EXAMINATION OBJECT THEREWITH - In a combined magnetic resonance (MR)-emission tomography apparatus, MR scan data and emission tomography scan data are acquired from a subject in the apparatus. MR image data are generated from the MR scan data, and an attenuation map is generated from the same MR scan data that were used to generate the MR image data. Emission tomography image data are generated by applying a correction algorithm, which uses the attenuation map, to the emission tomography scan data. The MR image data and the emission tomography emission data are then presented. | 2016-03-10 |
20160069974 | MAGNETIC RESONANCE IMAGING APPARATUS AND METHOD OF OPERATING THE SAME - The MRI apparatus includes: a radio frequency (RF) transmitter configured to transmit an RF signal including multiple frequency signals corresponding respectively to multiple slices of an object to excite the multiple slices of the object; a gradient amplifier configured to apply a three-dimensional (3D) spatial encoding; an RF receiver configured to receive MR signals in an overlapped state from the multiple slices in a same repetition time (TR) period; and an image processor configured to acquire 3D k-space data based on the MR signals and acquire an MR image of each of the multiple slices based on the 3D k-space data. | 2016-03-10 |
20160069975 | AUTOMATIC CONFIGURATION OF A LOW FIELD MAGNETIC RESONANCE IMAGING SYSTEM - In some aspects, a method of operating a magnetic resonance imaging system comprising a B | 2016-03-10 |
20160069976 | METHOD AND APPARATUS FOR ACQUIRING MAGNETIC RESONANCE DATA FROM A TARGET REGION WHILE THE TARGET REGION MOVES DUE TO RESPIRATION - In a method for recording magnetic resonance data in a target region of a patient while the target region moves due to respiration a single-shot turbo spin echo sequence is used as a magnetic resonance sequence in a magnetic resonance apparatus. SPAIR fat saturation is used by emitting an inversion pulse at an inversion time before the data recording with the magnetic resonance apparatus. Multiple repetitions of the sequence of an inversion pulse, an inversion time and a data recording using the magnetic resonance sequence are triggered by a respiratory signal describing the respiratory cycle, each repetition occurring upon fulfillment of a recording criterion. At least one further inversion pulse is emitted in a waiting time between the sequences. | 2016-03-10 |
20160069977 | Performance and Versatility of Single-Frequency DFT Detectors - Described herein are systems and methods for improving performance of single-frequency (single-point, single-bin) discrete Fourier transform (DFT) detectors by elimination of systematic errors from the detector output. Calibration procedures known in the art for practical implementations of such detectors do not provide adequate reduction of these systematic errors thus reducing utilization of these detectors in useful applications and products. The described methods, systems and devices allow such detectors to measure both DC and AC signals and, in latter case, considerably expand the operation frequency range without any additional hardware. These methods enable wide practical applications of DFT detectors across diverse variety of fields: from monitoring health of mechanical structures and fluid properties to impedimetric measurements in electrochemistry, monitoring of corrosion and bioimpedance. | 2016-03-10 |
20160069978 | Enhancing Client Location via Beacon Detection - A computing entity, such as a server, obtains a first, second, and third set of measurements based on wireless transmissions between one or more beacon devices, a wireless client device, and one or more wireless access points in a wireless network. The first set of measurements is associated with wireless transmissions from the beacon device(s) received at the wireless access points. The second set of measurements is associated with wireless transmissions between the wireless client device and the wireless access points. The third set of measurements is associated with wireless transmissions from beacon devices received at the wireless client device. An estimated location of the wireless client device is generated based on the first set of measurement data, the second set of measurement data, and the third set of measurement data. | 2016-03-10 |
20160069979 | APPARATUS AND METHOD FOR FINDING HYBRID DIRECTION USING TWO BASELINES - Disclosed is a hybrid direction detection apparatus and method that may perform a precise direction detection through a one-time rotation of a log period (LP) antenna and a one-time phase difference measurement of a dipole antenna and may remove an ambiguity error of the LP antenna by two dipole antennas spaced apart by a distance of about 0.5λ by finding an approximate direction using the LP antenna that is a directional antenna, by measuring a phase difference between arrival waves using two baselines including two dipole antenna in the corresponding direction, and thereby precisely finding a final direction. | 2016-03-10 |
20160069980 | WIRELESS COMMUNICATION DEVICE AND ESTIMATION METHOD - A wireless communication device includes: a plurality of antennas configured to receive a radio wave; a processor configured to execute a program; and a memory configured to store the program, wherein the processor preforms operations to: measure reception strength of a radio wave of an estimation target at each of the plurality of antennas; executes first calculation processing of calculating first correlation coefficients of antenna pairs among the plurality of antennas and calculating a second correlation coefficient of the plurality of antennas by using the first correlation coefficients for each of a plurality of direction-of-arrival candidates of the radio wave; and estimates a first direction of arrival of the radio wave of the estimation target based on the second correlation coefficient for each of the direction-of-arrival candidates. | 2016-03-10 |
20160069981 | DEPLOYMENT METHOD FOR HIGH-CONCENTRATION PHOTOVOLTAIC POWER GENERATION SYSTEM - The present invention relates to a deployment method for high-concentration photovoltaic power generation system, According to the present invention, after acquiring the location parameters of a solar tracker array, the surface images of the receiving surface of the solar trackers are acquired subsequently. Afterwards, the numbers of the white and grey pixels in the surface images are analyzed for giving the shadowing ratio. According to the shadowing ratio, the estimated power generation can be calculated. Thereby, the related supplier can refer to the simulated data for improving the deployment. By adjusting to a better deployment for constructing the high-concentration solar tracker array, high power-generation benefit can be utilized given the existing land condition. | 2016-03-10 |
20160069982 | APPARATUS AND METHOD FOR CALIBRATING A RADIO POSITIONING BASED POSITION FINDING DEVICE - Described is an apparatus for calibrating a position finding device, having a comparer for comparing a received radio signal pattern to a multitude of reference radio signal patterns, a determiner for determining a signal strength difference, and a determiner for determining a calibration value. The comparer for comparing is configured to select a selection subset from the multitude of reference radio signal patterns by means of a measure of matching between the received radio signal pattern and one reference radio signal pattern, respectively. Determination of the calibration value is based on the signal strength difference, and the determiner for determining the calibration value is further configured to provide the calibration value to the position finding device. Also described are a position finding device for radio-based localization, having such an apparatus for calibrating, a method of calibrating a position finding device based on radio-based localization, and a computer program for performing the method are described. | 2016-03-10 |
20160069983 | SYSTEM AND METHOD FOR IMPROVED LOCATION ACCURACY - Systems and methods for improved location accuracy are provided. For example, some systems can include a location engine, and a plurality of location anchors. In some embodiments, each of the plurality of location anchors can transmit or receive signals to or from an object for determining an angular orientation of the object with respect to the plurality of location anchors, and based on the angular orientation, the location engine can estimate a location of the object. In some embodiments, each of the plurality of location anchors can transmit first signals to the location engine, the location engine can receive a second signal from an object, based on the first signals and the second signal, the location engine can determine a differential pressure between the plurality of location anchors and the object, and based on the differential pressure, the location engine can estimate an altitude of the object. | 2016-03-10 |
20160069984 | METHODS AND APPARATUS FOR DETERMINING RELATIONSHIPS IN HETEROGENEOUS NETWORKS - A method enables automatic determination that an area covered by an Access Point (AP) of a Wi-Fi Radio Access Network (RAN) overlaps with a cell of a 3GPP RAN. The method comprises, at an entity of the Wi-Fi RAN, obtaining a 3GPP identifier related to a user terminal that is attached to the Wi-Fi RAN and an identifier for an AP of the Wi-Fi RAN to which the terminal is attached. The method further comprises, at the entity, generating and sending a Location Service Request including the 3GPP identifier to a Location Services (LCS) Server associated with the 3GPP RAN, receiving a Location Service Response from the LCS Server that includes information identifying a cell of the 3GPP RAN in which the user terminal is located, and causing storage of an association between the identified Wi-Fi AP and the identified 3GPP cell. | 2016-03-10 |
20160069985 | ASSURED VEHICLE ABSOLUTE LOCALISATION - It is proposed to provide a system for localizing a vehicle in a marked environment, provided with a set of markers, e.g. on a road side, the markers emitting a position signal indicative of a respective marker's known geographical position. The system comprises a distance detection unit and a processing unit provided in the vehicle, the processing unit adapted to receive said position signal of a respective marker. The processing unit is adapted to receive said known geographical position from the position signal of said respective marker; and to estimate a first distance measure of the vehicle relative to the respective marker based on a position signal measurement. The processing unit feeds said estimated first distance measure to the distance detection unit; the distance detection unit being adapted to detect said marker within the first distance measure by a second distance measure. The distance detection unit is further adapted to provide the processing unit with the second distance measure of the vehicle relative to the detected marker and with a detection angle of the detected marker; and the localization unit calculating an instantaneous geographical position of said vehicle from the second distance measure; the detection angle and the marker's known geographical position. | 2016-03-10 |
20160069986 | RADAR DEVICE AND METHOD OF OPERATING A RADAR DEVICE - A radar device includes a RF signal source, two or more antenna interface units, a feed network, and a control unit. The RF signal source is arranged to provide a RF signal; each of the antenna interface units includes an antenna port and one of the following an amplifier and a mixer; the feed network includes two or more buffers, each buffer has an active and an inactive state; the control unit is arranged to generate or receive a selection signal which specifies none, one, or more of the antenna interface units as active antenna interface units and the remaining antenna interface units as inactive antenna interface units; the control unit is arranged to activate and deactivate the buffers in dependence on the selection signal so as to feed the RF signal to the none, one, or more active antenna interface units and not to the inactive antenna interface units. | 2016-03-10 |
20160069987 | METHOD AND DEVICE FOR DISPLAYING SHIP VICINITY INFORMATION - A ship vicinity information display device is provided. The ship vicinity information display device includes a display unit configured to display information indicating a situation in the vicinity of a first ship, a detector configured to detect a second ship existing in the vicinity of the first ship, a ship wave information generating module configured to generate information of ship waves caused by the second ship, and a display processing module configured to cause the display unit to graphically display the second ship detected by the detector, and the information of the ship waves generated by the ship wave information generating module. | 2016-03-10 |
20160069988 | Platform-Independent Sonar Calibration Enabling System - The invention enables platform-independent sonar calibration. The associated systems and methods have application to underwater sonar systems and components, enabling an unprecedented flexibility in use. The systems and methods of the invention allow for efficient field calibration of sonars as configured for operational use, with high accuracy at low-cost. The invention provides in situ calibration capability for both stationary and moving sonar platforms and is suitable for calibration during operations. | 2016-03-10 |
20160069989 | ARCHITECTURE OF SINGLE SUBSTRATE ULTRASONIC IMAGING DEVICES, RELATED APPARATUSES, AND METHODS - Aspects of the technology described herein relate to ultrasound device circuitry as may form part of a single substrate ultrasound device having integrated ultrasonic transducers. The ultrasound device circuitry may facilitate the generation of ultrasound waveforms in a manner that is power- and data-efficient. | 2016-03-10 |
20160069990 | OBSTACLE DETECTION DEVICE - An obstacle detection device includes a plurality of ultrasonic sensors and a detection control unit. The detection control unit detects an object by using one of at least two of the ultrasonic sensors as a transmission sensor that transmits an ultrasonic wave and the other of the at least two of the ultrasonic sensors as a reception sensor that receives the ultrasonic wave transmitted by the transmission sensor and reflected. A difference of heights of the one used as the transmission sensor and the other used as the reception sensor attached to a surface of a vehicle body from a ground is a predetermined threshold height that is defined based on twice a height of a bump on the ground as a non-detection object. | 2016-03-10 |
20160069991 | APPARATUS AND METHOD FOR BEACON PROCESSING - Systems, apparatus and methods for determining a beacon device are presented. A device selects a beacon device by computing travelling distances between a mobile device and respective locations for a plurality of beacon devices. The selected beacon device may be the beacon device the mobile device would reach first and may consider a course of the mobile device and what type of services are offered and needed from a particular beacon device. | 2016-03-10 |
20160069992 | NEGATIVE PSEUDO-RANGE PROCESSING WITH MULTI-STATIC FMCW RADARS - A multi-static radar system for monitoring water surface targets is provided. The multi-static radar system may include a first and second radar, a state machine, and a signal processor. The radars may be located in separate locations and synchronized using timing signals. The state machine may be configured to determine, using the timing signals, start times and end times of radio frequency signal modulations for each radar. A concept of negative pseudo-range is provided, whereby the modulation start times are configured to allow pseudo-negative time delays at as many as half of the radar receivers, thereby doubling the multi-static echo detections. The signal processor may be configured to simultaneously receive and process the echoes of the radar signals received at the radars to determine position and velocity vectors for the monitored water surface targets. | 2016-03-10 |
20160069993 | WIND TURBINE MITIGATION IN RADAR SYSTEMS - Disclosed is an ATC Radar and a method of operating an ATC Radar, comprising the steps of: receiving In-phase (I) and Quadrature (Q) signals; | 2016-03-10 |
20160069994 | SENSE-AND-AVOID SYSTEMS AND METHODS FOR UNMANNED AERIAL VEHICLES - A sense-and-avoid system, for an unmanned air vehicle (UAV), configured to detect and estimate the relative position and velocity of a nearby object and to enable determination whether the nearby object poses a collision threat to the UAV. In one embodiment, the sense-and-avoid system is provided with a frequency modulated continuous wave (FMCW) synthesizer adapted to generate at least one swept-frequency waveform. The sense-and-avoid system may also be included with an RF subassembly. In some embodiments, the RF subassembly may include at least one transmit antenna adapted to transmit the at least one swept-frequency waveform. The at last one swept-frequency waveform may illuminate the nearby object. The sense-and-avoid system may be further provided with a plurality of receive antennas adapted to receive an echo signal from the nearby object. In some embodiments, the echo signal results from the illumination of the nearby object by the swept-frequency waveform. Additionally, the sense-and-avoid system may be provided with a signal processor configured to analyze the received echo signal and to derive object data for the nearby object. The object data may include at least range, radial velocity, and two-dimensional angle of arrival. | 2016-03-10 |
20160069995 | SYSTEM AND METHOD OF CORRECTING A NON-CONCENTRIC ULTRASONIC IRIS INSPECTION RESULT - Disclosed is an ultrasonic IRIS inspection system and a method of providing automatically compensated concentric B-scans by means of curve-fitting the unadjusted tube boundaries from inspection data, and from the curve fitted theoretical circle, using non-linear regression analysis to determine an adjusted center. The off-center distance between the adjust center and the misaligned center is then used to produce concentric inspection result by compensating the unadjusted inspection result with the off-center distance. | 2016-03-10 |
20160069996 | PHASE CENTER ALIGNMENT FOR FIXED REPETITION RATE SYNTHETIC APERTURE SYSTEMS - A system for adjusting phase centers of a receiving array in real time. In one embodiment, a transmitter transmits a sequence of pings. Receiving elements are grouped into staves and summed prior to subsequent processing, and the groups are selected so that the phase center on a ping is substantially in the same location as another phase center on a previous ping. | 2016-03-10 |
20160069997 | Imaging, Fabrication and Measurement Systems and Methods - A measurement system and methods are disclosed. The system has intensity coding optics comprising a plurality of imaging channels with overlapping fields of view. The intensity coding optics are adapted to provide intensity coded information indicative of a position of one or more objects, wherein each of the imaging channels provides a difference in intensity verses an angular position of the one or more objects. The system also has an electromagnetic energy detector adapted to: (a) receive the intensity coded information, wherein the electromagnetic energy detector comprises a size larger than a spatial resolution of the intensity coding optics, and (b) output data from the electromagnetic energy detector; and a processing device adapted to receive the data and determine the position of the one or more objects. | 2016-03-10 |
20160069998 | VEHICLE-MOUNTED DEVICE AND VEHICLE-MOUNTED RANGING SYSTEM - A vehicle-mounted device includes an interference determination unit and a sensor control unit. The interference determination unit determines whether an interference state where a first electromagnetic wave ranging sensor equipped to a first vehicle may receive a second transmission wave transmitted from a second electromagnetic wave sensor equipped to a second vehicle is present, based on transmission time frame information received by a first wireless communication device equipped to the first vehicle, and reception duration information indicating a reception duration during which a first electromagnetic wave ranging sensor equipped to the first vehicle may receive a first reflected wave. The sensor control unit controls transmission timing for transmitting the first transmission wave from the first electromagnetic wave ranging sensor and a reception duration, and changes the transmission timing and the reception duration to avoid the interference state, when the interference determination unit determines that the interference state is present. | 2016-03-10 |
20160069999 | DEPTH IMAGE OBTAINING DEVICE AND DISPLAY DEVICE USING SAME - The present invention relates to a depth image obtaining device enabled to obtain a depth image of a subject located at a far distance, and a display device using the same, the depth image obtaining device comprising: a light irradiation part for irradiating light onto a predetermined subject; a light receiving part receiving light reflected from the subject; and a control part for controlling the light irradiation part and the light receiving part. The light irradiation part comprises alight source part for emitting light in a first direction and a reflection part for reflecting the light emitted in the first direction into a second direction. | 2016-03-10 |
20160070000 | IN-VEHICLE APPARATUS PERFORMING AN OPERATION BASED ON A DISTANCE MEASURED, AND IN-VEHICLE SYSTEM INCLUDING THE IN-VEHICLE APPARATUS - An in-vehicle apparatus installed in a first vehicle. The in-vehicle apparatus includes a first distance sensor measuring a distance to an object based on time to receive a reflection wave of an electro-magnetic transmission wave from the object after a transmission of the electro-magnetic transmission wave, with the first distance sensor being an electro-magnetic wave sensor. The in-vehicle apparatus also includes an inclination angle sensor that senses a first vehicle inclination angle representative of an inclination angle of the first vehicle that includes the first distance sensor, a radio communicator that receives a second vehicle inclination angle transmitted from a second vehicle that leads the first vehicle, an angle difference calculator that calculates an angle difference between the first vehicle inclination angle and the second vehicle inclination angle, and a processor that performs a preset operation based on the distance measured by the first distance sensor. | 2016-03-10 |
20160070001 | SATELLITE NAVIGATION USING SIDE BY SIDE ANTENNAS - A multiband antenna apparatus for high-precision GNSS positioning is proposed. The multiband antenna apparatus comprises a first antenna configured for reception of GNSS signals in a first multiband of electromagnetic spectrum, a second multiband antenna configured for reception of GNSS signals in a second multiband of electromagnetic spectrum, and an antenna phase reference point configured to represent an integrated electric phase data. The antenna phase reference point is related to a physical reference point of the antenna apparatus. | 2016-03-10 |
20160070002 | RADIATION IMAGING APPARATUS AND RADIATION IMAGING SYSTEM - A radiation imaging apparatus for sensing a radiation image, includes a radiation imaging panel including a plurality of imaging substrates and a scintillator having a first face and a second face which oppose each other, a housing configured to house the radiation imaging panel and including a first plate-shaped portion and a second plate-shaped portion, a first support member located between the first face of the scintillator and the first plate-shaped portion of the housing so as to support the scintillator via the plurality of imaging substrates, and a second support member located between the second face of the scintillator and the second plate-shaped portion of the housing so as to support the scintillator. | 2016-03-10 |
20160070003 | X-RAY RADIATION DETECTOR WITH AUTOMATIC EXPOSURE CONTROL - A radiation detection system is provided comprising a scintillator capable of converting the radiation to visible light; at least two buttable CMOS wafers; an adjacent acquisition board, for acquiring pixel values; and at least one processing board capable of image edge detection. The butt of each pair of adjacent CMOS wafers is made such that the total width of the two peripheral pixel lines and the spacing between them sums to a whole number of pixel pitch, N, and wherein the processing board: a) subtracts the corresponding data of an offset table from pixel values; b) multiplies the resulted value by the data of the skewed gain table; c) substitutes the values of at least one defective pixel by a value derived from values of pixels in a zone around the defective pixel, in a way that the image edge is not affected; and d) produces N virtual data lines with information derived from the two peripheral lines and the lines adjacent to them, wherein said data is composed such that edges presented in the peripheral and adjacent line is conserved in the additional N lines. | 2016-03-10 |
20160070004 | Digital Flat Panel Detector with Squircle Shape - Systems and methods for generating an X-ray image using a digital flat panel detector with a squircle shape are described. The flat panel X-ray detector contains a circuit board, a light imager electrically connected to the circuit board, and a scintillator coupled on the light imager. The detector has superellipse shape or a cornerless shape with a first substantially straight edge and a second substantially straight edge running substantially perpendicular to the first edge, wherein the first and second edges do not physically intersect with each other at 90 degrees. The flat panel detector with this shape can be used in an x-ray imaging system that uses the detector to detect x-rays and produce an x-ray image. With this shape, the active sensing area of the detector can be similar to those currently available with rectangular or square flat panel detectors, while using less material to create the detector. | 2016-03-10 |
20160070005 | PHOTON-COUNTING X-RAY CT APPARATUS AND PHOTON-COUNTING X-RAY DIAGNOSTIC APPARATUS - A photon-counting X-ray computed tomography (CT) apparatus of an embodiment includes photon-counting CT detection circuitry, integral CT detection circuitry, switching circuitry, and a feedback capacitance. Photon-counting CT detection circuitry outputs count values for respective energy bins, based on voltage pulses output from a feedback capacitance with electric charges output from an X-ray detection element configured to detect incident X-rays. Integral CT detection circuitry outputs an integral value, based on the voltage pulses output from the feedback capacitance with the electric charges output from the X-ray detection element. Switching circuitry switches between a case of transmitting the electric charges output from the X-ray detection element to the photon-counting CT detection circuitry and a case of transmitting the electric charges output from the X-ray detection element to the integral CT detection circuitry. The feedback capacitance is connected with the photon-counting CT detection circuitry and the integral CT detection circuitry in parallel. | 2016-03-10 |