Class / Patent application number | Description | Number of patent applications / Date published |
702086000 | Linearization of measurement | 23 |
20080234963 | Calibration of a Metrological Apparatus - A metrological apparatus has a driver ( | 09-25-2008 |
20080288199 | Distortion cancellation using adaptive linearization - A method of signal processing includes receiving a distorted signal comprising a distorted component and an undistorted component, the distorted component being at least in part attributed to an exogenous signal, and performing linearization, based at least in part on the distorted signal and information associated with the exogenous signal, to obtain a corrected signal that is substantially similar to the undistorted component. An adaptive distortion reduction system includes an input interface configured to receive a distorted signal comprising a distorted component and an undistorted component, the distorted component being at least in part attributed to an exogenous signal; and an adaptive distortion reduction module coupled to the input interface, configured to perform linearization based at least in part on the distorted signal and information associated with the exogenous signal, to obtain a corrected signal that is substantially similar to the undistorted component. | 11-20-2008 |
20080319695 | SENSING CIRCUIT, OPTICAL DETECTION CIRCUIT, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A sensing circuit includes a first sensing element, a second sensing element, a reduction unit, a storage unit, a specifying unit and a detection unit. The reduction unit reduces the amount of the energy applied to the second sensing element. The storage unit stores a degradation characteristic of the sensing element. The specifying unit specifies a rate of degradation. The detection unit detects the amount of the energy on the basis of the rate of degradation. | 12-25-2008 |
20090012732 | Methods and systems for detrending signal intensity data from chemical arrays - Methods, systems and computer readable media for removing trends in signal intensity values from features on a chemical array. Inputted signal values from features on the array are surface fitted to calculate a surface approximation. The surface approximation is normalized and used to de-trend the signal intensity values from the features. | 01-08-2009 |
20090043524 | SURFACE MESH MATCHING FOR LENS ROLL-OFF CORRECTION - A two-dimensional (2D) mesh is applied over a distortion surface to approximate a lens roll-off distortion pattern. The process to apply the 2D mesh distributes a plurality of grid points among the distortion pattern and sub-samples the distortion pattern to derive corrected digital gains at each grid location. Non-grid pixels underlying grid blocks having a grid point at each corner are adjusted based on the approximation of the lens roll-off for the grid points of the grid block. In one example, bilinear interpolation is used. The techniques universally correct lens roll-off distortion irregardless of the distortion pattern shape or type. The technique may also correct for green channel imbalance. | 02-12-2009 |
20090048798 | Method for Performing Write Calibrations on Holographic Storage Media - A method for performing write calibrations on holographic storage media is disclosed. Initially, five identical and known calibration holograms are written on a holographic storage medium, in which three of the five calibration holograms are written with different laser power and three of the five calibration holograms are written with different time durations. A matched filter is then utilized to determine a cross-correlation between the five calibration holograms read from the holographic storage medium and their corresponding ideal calibration holograms previously stored within a memory device within the holographic storage drive. A least-squares fit of an ellipsoidal parabola to the cross-correlations is subsequently calculated to yield an optimal laser write power level and an optimal duration for a laser write pulse. | 02-19-2009 |
20090063079 | SCANNER CALIBRATION ROBUST TO LAMP WARM-UP - Systems and methods are described that facilitate calibrating a scanner by capturing a plurality of white calibration files and generating a mathematical function that models the scanner. For instance, a white calibration file can be captured before and after a page is scanned, and the function can be an average of offset and gain values for pixels in scanlines of the scanned page. Three or more white calibration files can be used to generate a linear function (e.g., using linear regression) or an exponential function describing the gain an offset values of the pixels. | 03-05-2009 |
20090088999 | OPTICAL ABERRATION CORRECTION FOR MACHINE VISION INSPECTION SYSTEMS - A system and method for correcting surface height measurements for optical aberration is provided. Heights determined by an autofocus tool, which may depend on surface feature angles in a focus region of interest (ROI) and on the ROI location in the field of view, are corrected based on a novel error calibration. Error calibration data includes height corrections for different feature angles in images, and for multiple locations in a field of view. Height corrections are determined by weighting and combining the angle dependent error calibration data, e.g., based on a gradient (edge) angle distribution determined in the ROIs. When Z-heights are determined for multiple ROIs in a field of view, storage of image data from particular images of a global image stack may be efficiently controlled based on determining early in processing whether a particular image is a sufficiently focused “near-peak” focused image or not. | 04-02-2009 |
20100153049 | Apparatus, system, and method for calculating a non-linearity metric - Receiving gain factors for channels that are combined to be transmitted in a communications signal, and calculating, on the basis of the gain factors, a non-linearity metric for controlling a transmission power of the communications signal. | 06-17-2010 |
20100241381 | CALIBRATION TO IMPROVE WEATHER RADAR POSITIONING DETERMINATION - A method of calibrating antenna-position detection associated with a radar system, the radar system including a first gimbal and a first angle sensor configured to detect an angular position of the first gimbal, includes mounting a second angle sensor to the first gimbal configured to detect an angular position of the first gimbal. The first gimbal is rotated through each angular position of a set of the angular positions. A first set of data is generated with the first angle sensor that characterizes a detected angular position of the first gimbal. A second set of data is generated with the second angle sensor that characterizes a detected angular position of the first gimbal. A third data set is determined comprising differences, between the first and second data sets, in detected angular position at each first-gimbal angular position. The third data set is stored in a memory device. | 09-23-2010 |
20110119012 | Method for the Signal Linearization of a Gas Sensor Output Signal - The invention describes a method that is used to determine the linearization curve of a sensor for specific gas components by combining this sensor with an ultrasonic molar mass sensor. The described method uses the fact that the molar mass sensor exhibits a completely linear response when two gas compositions of differing molar mass values are mixed. Using this feature a non linear-response of a sensor for specific gas components can be determined and a linearization curve can be computed. | 05-19-2011 |
20120191395 | NON-LINEARITY CALIBRATION USING AN INTERNAL SOURCE IN AN INTELLIGENT ELECTRONIC DEVICE - An intelligent electronic device, and in particular, an electrical power meter, featuring an internal calibration system capable of calibrating its measurement mechanisms for the integral nonlinearities introduced by the components which make up those mechanisms, in particular, the analog-to-digital converter, is disclosed. The analog-to-digital converter is coupled with at least one sensor which is operable to sense electrical energy in one or more conductors and output a corresponding electrical signal indicative thereof, the analog-to-digital converter being operative to convert the electrical signal output by the sensor to at least one corresponding digital signal. Integral non-linearity (“INL”) is a term describing the deviation between the ideal output of an analog-to-digital converter and the actual output (after offset and gain errors have been removed). The disclosed embodiments further relate to an electrical power meter having internal INL calibration using a relatively low cost, low accuracy internal signal source, obviating the need for costly external signal sources or measurement systems, which quickly calibrates the electrical power meter for such INL substantially across its entire measurement range and significantly improves the measurement accuracy thereby. | 07-26-2012 |
20120290244 | METHOD AND APPARATUS FOR COMPENSATING NONLINEAR DAMAGE - A method and apparatus for compensating nonlinear damage are disclosed. The method for compensating nonlinear damage, including: determining an additive parameter indicating an amount of nonlinear damage based on a plurality of sampled signal sets among which a sampling time of an input signal varies according to different time; and subtracting the additive parameter from the input signal. | 11-15-2012 |
20130018619 | PHYSICAL QUANTITY DETECTION APPARATUS AND INSPECTION METHOD OF PHYSICAL QUANTITY DETECTION APPARATUSAANM HARA; TetsuyaAACI Kariya-cityAACO JPAAGP HARA; Tetsuya Kariya-city JPAANM Kubota; TakamitsuAACI Chiryu-cityAACO JPAAGP Kubota; Takamitsu Chiryu-city JP - A physical quantity detection apparatus includes a signal output section, a correction value calculation section, and a processing section. The signal output section outputs signals in accordance with a change in physical quantity of a detected object. The correction value calculation section calculates a correction value. The processing section corrects values based on actual output values of the signal output section with the correction value, calculates physical quantities of the detected object based on corrected values, and outputs calculated physical quantities. The correction value calculation section calculates the correction value based on primary error amounts that are differences between post-interpolation actual output values calculated by executing a linear function interpolation process to the values based on the actual output values within a predetermined physical quantity range and the values based on the actual output values corresponding to the post-interpolation actual output values. | 01-17-2013 |
20130060498 | CALIBRATION AND COMPENSATION METHOD AND APPARATUS FOR RESISTIVE SENSOR MEASUREMENT BRIDGE - A resistive sensor read-out apparatus is disclosed. In one embodiment, the resistive sensor read-out apparatus comprises an active sensor, a reference element, a bias circuit, a current-to-voltage converter, an analog-to-digital converter and a calibration processor. The bias circuit is coupled to the active sensor and the reference element and configured to calibrate one or more mismatches between the active sensor and the reference element. The current-to-voltage converter is coupled to an output of the bias circuit. The analog-to-digital converter is coupled to an output of the current-to-voltage converter. The calibration processor is coupled to an output of the analog-to-digital converter and configured to estimate an error caused by limited resolution mismatch calibration. The calibration processor is also configured to at least partially control calibration performed at the bias circuit based on the error. | 03-07-2013 |
20130103337 | HIGH-RESOLUTION MASS SPECTROMETER AND METHODS FOR DETERMINING THE ISOTOPIC ANATOMY OF ORGANIC AND VOLATILE MOLECULES - A mass spectrometer including an entrance slit, an energy filter, a momentum filter and a detector array, the entrance slit, energy filter and momentum filter being configured to provide molecular analyte ions to the detector array at a mass resolution of about 20,000 or greater. A method for determining the isotopic composition of an analyte in a sample includes converting the analyte to molecular analyte ions, separating the molecular analyte ions using an entrance slit, separating the molecular analyte ions according to their energy levels, separating the molecular analyte ions according to their momenta, detecting two or more of the molecular analyte ions at a mass resolution of about 20,000 or greater to produce molecular analyte ion data; and analyzing the molecular analyte data to determine the isotopic composition of at least a portion of the analyte. | 04-25-2013 |
20130124127 | SENSOR AUTO-CALIBRATION - Aspects of the disclosure relate to computing technologies. In particular, aspects of the disclosure relate to mobile computing device technologies, such as systems, methods, apparatuses, and computer-readable media to improve the calibration data by taking into account the effects of change in temperature on motion sensors. For instance, different levels of error may be associated with a motion sensor at different temperature levels. In one implementation, the sensor measurement data associated with the various orientations at a temperature is used in determining the calibration data for that temperature. | 05-16-2013 |
20130173196 | PHYSICAL QUANTITY SENSOR - The invention is directed to the provision of a physical quantity sensor that can suppress noise caused by external vibrations, while also suppressing variations in output signal caused by variations in reference voltage. The physical quantity sensor includes an oscillator which converts an externally applied physical quantity into an electrical signal, a reference signal generating circuit which outputs a reference signal; an oscillator circuit which causes the oscillator to oscillate by applying an oscillator signal produced based on the reference signal, and a detector circuit which detects an output signal of the oscillator by multiplying the output signal by the oscillator signal and dividing the reference signal. | 07-04-2013 |
20130204564 | SYSTEM AND METHOD FOR INTERPRETING A SIGNAL FROM A TRANSDUCER - The sensor system includes a transducer having an output and a microcontroller in communication with the output of the transducer. Generally, the transducer is a Hall effect device which is capable of measuring a magnetic field. The transducer outputs a transducer signal to the microcontroller. The transducer signal has a generally non-linear range. The microcontroller receives the non-linear transducer signal and is configured to output a signal based on the transducer signal that has been modified to have a linear range, as opposed to the non-linear range of the transducer signal. | 08-08-2013 |
20130245980 | METHOD AND APPARATUS FOR INTELLIGENT AIRFLOW SENSORS - A sensor capable of detecting both airflow in spirometry and a full range of sound frequencies is provided. The airflow sensor includes a movable flap with one or more integrated strain gauges for measuring displacement and vibration. The sensor may be a bidirectional elastic flap airflow sensor that is capable of providing data needed for both spirometry and auscultation measurements. The sensor is provided in connection with a software module that analyzes sensor output waveforms and provides for correction functions that correct for certain non-linear response functions of the flap. The correction functions are also suitable for non-medical fluid flow metering applications. Additional devices may also be affixed to the flap, such as sensors for the ambient level of various chemicals, sensors for temperature, sensors for humidity and microphones. | 09-19-2013 |
20130325384 | METHOD AND DEVICE FOR ASCERTAINING A PHYSICAL VARIABLE IN A POSITION TRANSDUCER SYSTEM - A method for ascertaining a value of a physical variable in a position transducer system includes the steps of providing a computation model, which maps a response of the position transducer system, wherein the computation model includes a model function and one or multiple parameter(s); ascertaining a value of at least one system variable at one or multiple points in time; determining the parameters of the computation model from one or multiple value(s) of the at least one system variable determined at different points in time; and determining the value of the physical variable as a function of the one or the multiple determined parameters. | 12-05-2013 |
20140336967 | Digital Compensation for Non-Linearity in Displacement Sensors - Systems, apparatuses and methods for digital compensation for total harmonic distortion in a displacement sensor. The methods can include determining a total harmonic distortion compensation function for a displacement sensor; using the displacement sensor to measure a displacement by generating an output signal with total harmonic distortion; digitizing the distorted output signal to generate distorted output data; applying the total harmonic distortion compensation function to the distorted output data to generate undistorted output data; and outputting the undistorted output data. | 11-13-2014 |
20150323560 | METHOD AND SYSTEM FOR COMPENSATING SYSTEMATIC NON-LINEARITIES OF A SIGNAL PROVIDED BY A CAPACITIVE INERTIAL SENSOR - A method for compensating non-linearities of a read signal generated by a variable-capacitance inertial sensor including a first fixed electrode and a second fixed electrode and a mobile electrode, which is spatially arranged between the first and second fixed electrodes and is capacitively coupled to the first and second fixed electrodes, said method comprising the steps of: acquiring the read signal; identifying a first linear component and at least one first nonlinear component of the read signal; a generating a compensated output signal by subtracting the first nonlinear component from the read signal. | 11-12-2015 |