Abstract: Accurate power usage for a portable information handling system is provided using input power measurement circuitry. A calibration step is performed when the portable information handling system is powered down and charging. The calibration step includes obtaining a battery charge measurement from a battery, and then using this measurement to calibrate an input power measurement made with respect to power being provided by the AC/DC adapter. Known losses from other sources within the system can also be considered in the auto-calibration of the input power measurement. Subsequently, when the portable information handling system is powered on and operating on power provided by the AC/DC adapter, power usage can be determined and reported using the auto-calibrated input power measurement as an indication of the power usage of the portable information handling system.

Abstract: Provided is an automatic sensor-calibration method in which a state change of a sensor, caused by aging characteristics or contamination of the sensor, is sensed by a sensor input unit to adjust, according to the sensed state change of the sensor, a slice level used as a criterion for a light receiving device to determine whether a medium exists, or the slice level is adjusted according to the sensed state change of the sensor and a current level of a light emitting device is adjusted when the slice level reaches a preset absolute slice level, or when contamination of the sensor is removed, the current level of the light emitting device is reduced to a minimum step, the slice level is set, and then the current level of the light emitting device is adjusted based on the set slice level, thereby preventing malfunction of the sensor.

Abstract: A signal analyzer includes a divergence detector for detecting periodic interference in a signal, an information detector for detecting a random event in the signal, and output circuitry for providing compensation for the periodic interference and the random event.

Abstract: A method for calibrating a mark quality verifier assembly wherein the assembly includes a camera including a camera field of view (FOV) and a processor for running software programs that are stored in a memory that is accessible to the processor, the method comprising the steps of providing a calibration program in the memory that is accessible by the processor, providing a calibration code on a surface of a calibration tool wherein the calibration code includes calibration information, positioning the calibration tool adjacent the camera so that the calibration code is within the FOV, obtaining at least one image of the calibration code via the camera, using information in the calibration code to determine that a verifier calibration process should be performed and commencing the calibration program when the calibration code indicates that a calibration process should be performed.

Abstract: Simulated textures whose parameters are held with object model data in a data store are modified in accordance with data held in data store which data defines a Gamma correction factor previously determined for each identified user. The gamma correction factor is determined by outputting to a Haptic Output interface a texture simulation including spaced grooves or ridges. By correlating user response to the perceived “feel” of the texture (rough, medium or smooth scale for example) the user's perceptual factors can be determined. Subsequently applying the perceptual factors to effect a mathematical adjustment (power) of texture in simulation algorithms allows output simulations to be adapted so that each user has a corresponding perception of the simulated objects.

Abstract: A calibration device for calibrating a metering system that dispenses a product to a seeder towed by a farm vehicle is provided for obtaining and maintaining a desired rate of delivery of the product from the seeder. The calibration device includes a first console port positioned at or near the farm vehicle and a second console port at or near the metering system, each operative to receive at least one a calibration console for calibrating the rate of product delivery and adjust the metering system accordingly.

Abstract: A method for calibrating an apparatus for ellipsometric measurements performed on an arbitrarily large or continuously moving sample, using a visible sample reference frame, and one or more laser sources in order to calibrate the ellipsometer for variations in the distance between the ellipsometer apparatus and the sample of interest. Included are techniques for projecting a first laser beam spot from an incident laser source onto a sample, then analyzing the position of the first laser beam spot relative to the center of the sample reference frame using human-aided measurements and confirmations and/or computer vision techniques. Then adjusting pivot points and/or apparatus-to-sample distance to achieve a first beam spot being located about the center of the sample reference frame, and concurrently intersecting the plane of the sample. Other techniques include changing the incidence and reflectance angle using a semi-circular track arc design with a stepping motor activating each goniometer arm.

Abstract: An improved current transformer apparatus includes a current transformer upon which are stored a number of calibration values which can be used when connecting the current transformer to a metering device. An improved method of enabling calibration of the current transformer involves deriving from a signal detected from the current transformer a number of calibration values for the current transformer and storing the calibration values in a storage disposed on the current transformer. A metering device retrieves from the storage the calibration values and applies the calibration values to a signal from the current transformer to generate a calibrated output.

Abstract: Computer-implemented systems and methods are provided for generating corrected performance data of water flooding of an oil reservoir system based on application of a statistical correction factor methodology (SCF). For example, data related to properties of the oil reservoir system and data related to a water flooding scenario are received. Water flooding performance data is generated based on application of an analytical water flooding performance computation methodology. Based on application of the SCF methodology to the generated water flooding performance data, corrected water flooding performance data is determined, representative of oil recovery by the water flooding of the oil reservoir system. The SCF methodology can also be used to evaluate water production based on parameters such as water-oil ratio and water cut, identify possible analog reservoirs that have similar water production performance, and calculate a Gross Injection Factor to account for water loss in the reservoir.

Abstract: A method and apparatus for testing a device under test (DUT) is provided. The test method including: a loading step of loading the at least one DUT; a soaking step of changing a temperature of the at least one DUT; during at least one of the loading step and the soaking step, a calibration step of updating a test program stored in a server or updating a calibration file; and a test step of carrying out an electrical test of the at least one DUT based on the test program or the calibration file. The test apparatus including a loader which loads the at least one DUT; a soak chamber for changing a temperature of the at least on DUT; a calibration unit for updating a test program stored in a server or updating calibration file, and a test unit for carrying out an electrical test of the at least one DUT based on the test program or the calibration file.

Abstract: A method and system are provided for calibrating a magnetometer. The method comprises obtaining a plurality of magnetometer sensor readings; storing sensor readings from the plurality of obtained sensor readings that are different; determining a first calibration parameter based on a first predetermined number of different readings; and determining a plurality of calibration parameters based on a second predetermined number of different readings, wherein the plurality of calibration parameters includes the first calibration parameter.

Abstract: Ground-based measurements of agricultural metrics such as NDVI are used to calibrate wide-area aerial measurements of the same metrics. Calibrated wide-area data may then be used as an input to a field prescription processor.

Abstract: A method is proposed for calibrating an instrument location facility with an imaging apparatus. The instrument location apparatus and the imaging apparatus are synchronized temporally with one another. According to such synchronization at least three points of the position of a medical instrument relative to a tracking coordinate system of the instrument location apparatus and/or relative to an image coordinate system of the imaging apparatus are measured simultaneously both by the instrument location apparatus and by the imaging apparatus. The instrument and/or the imaging apparatus are moved relative to one another between the measurements. The measured points parameterize a predetermined transformation rule for mapping the tracking coordinate system onto the image coordinate system.

Abstract: A system and method automatically calibrate a posture sensor, such as by detecting a walking state or a posture change. For example, a three-axis accelerometer can be used to detect a patient's activity or posture. This information can be used to automatically calibrate subsequent posture or acceleration data.

Abstract: Disclosed is a method to determine behavior characteristics of one or more modules of a laser system. The method includes applying inputs to the one or more modules of the laser system, measuring outputs resulting from the application of the inputs, and determining an equation-based mathematical relationship relating the inputs to the resultant outputs of the one or more modules of the laser system.

Abstract: The invention concerns a method for determining a calibration value indicating the extent of loss of calibration of a group of three or more sensors in a sensor network, the method involving receiving a plurality of data values captured over a period of time by each of the sensors, determining by a processing unit (404) at least one correlation value associated with each sensor, each correlation value corresponding to the correlation between the data values captured by the associated sensor and the data values captured by at least one other sensor; extracting by a high pass filter (410) a noise component of the correlation values and outputting the calibration value determined based on the difference between the noise component and a reference noise value.

Abstract: A system for providing real-time modeling of an electrical system under management is disclosed. The system includes a data acquisition component, a virtual system modeling engine, and an analytics engine. The data acquisition component is communicatively connected to a sensor configured to provide real-time measurements of data output from an element of the system. The virtual system modeling engine is configured to generate a predicted data output for the element. The analytics engine is communicatively connected to the data acquisition system and the virtual system modeling engine and is configured to monitor and analyze a difference between the real-time data output and the predicted data output.

Abstract: A method for calibrating voltage and current detected by a high frequency measurement apparatus is provided. By the method, a basic calibration parameter for a wide impedance range but with low accuracy and quadrant-specific calibration parameters for highly accurate calibration are calculated. This calculation is performed based, on values obtained by measuring three reference loads and true values of the reference loads. A first calibration unit of the apparatus calibrates the detected voltage and current by using the basic calibration parameter. A quadrant determining unit of the apparatus determines in which quadrant an impedance calculated from the calibrated voltage and current lies. A second calibration unit of the apparatus further calibrates the voltage and current by using a quadrant-specific calibration parameter corresponding to the determination result input from the quadrant determining unit.

Abstract: A system and method is disclosed for providing multi-point calibration of an adaptive voltage scaling (AVS) system. A plurality of Reference Calibration Codes (RCCs) within a multi-point calibration table is provided. Each code is associated with one of the clock frequencies of the adaptive voltage scaling (AVS) system. The present invention provides multi-point calibration by calibrating a Reference Calibration Code (RCC) for each operating point (clock frequency) of the adaptive voltage scaling (AVS) system.

Abstract: Disclosed is a method for determining calibration factors of an induction tool that includes three receiver coils, each having a distinct orientation. The method includes: placing the induction logging tool in a first position at a first height above a surface of the earth; performing a first set of measurements of conductivity using the receiver coils with the induction logging tool in the first position at the first height; placing the induction logging tool in a second position at a second height above the surface of the earth; performing a second set of measurements of conductivity using the receiver coils with the induction logging tool in the second position at the second height; and determining the calibration factors that correct conductivity measurements performed by the induction logging tool in a borehole penetrating the earth using the first and second sets of measurements.

Abstract: In the fast steady state field analysis method, the following processes are executed in a computer. First, the physical quantity of the analysis object is calculated through transient analysis based on an analysis execution module in which a differential equation including the time-derivative term is made discrete. A time-averaged value of the calculated physical quantities of the analysis object that are present in a set time width is calculated. The physical quantity of the analysis object calculated in step 21 for each time step is corrected by using a time harmonic order correction equation for time averaging with the calculated time-averaged value taken into consideration. After the physical quantity became in the steady state, the physical quantity of the analysis object in the steady state is calculated through transient analysis in which a differential equation is used. The calculated physical quantity of the analysis object in the steady state is displayed.

Abstract: An earthworking machine having a working tool at the end of an articulated arm is automatically calibrated. The calibration method includes collecting angular position data relating to different articulated components, after a series of movements of the end of the working tool between reference points located in accordance with a given geometrical configuration. These data are derived by imprecisely positioned detectors on each articulated component and then sent to a machine calibration system that executes a calculation module of the calibration system to determine, by use of known input data, unknown parameters which, once determined, control a luminous indicator display which guides the machine operator in the horizontal and/or vertical movements for the depth of the tool.

Abstract: A computer-implemented asset surveillance system and method for self calibrating at least one fault detector providing asset surveillance by calibrating at least the one fault detector with statistics associated with expected asset behavior, acquiring observed data values from an asset, screening the observed data values based upon at least one defined criterion for obtaining screened data values, updating the statistics associated with expected asset behavior as a function of the screened data values for defining updated statistics, and recalibrating the at least one fault detector with the updated statistics.

Abstract: Some embodiments can teach a system for monitoring usage of electrical power by a structure. The structure can have one or more main electrical power lines that supply the electrical power to a first load in the structure. A portion of the one or more main electrical power lines can run substantially parallel to a first axis. The structure can further have a panel that overlies the portion of the one or more main electrical power lines. The system can include: (a) a current sensor unit configured to be coupled to a portion of a surface of the panel, the current sensor unit having: (a) at least one magnetic field sensor having a length substantially parallel to a second axis, wherein the second axis is substantially perpendicular to the first axis, and the at least one magnetic field sensor is configured to detect a magnetic field generated by the one or more main electrical power lines; and (b) a processing unit configured to run on a processor.

Abstract: A method for clock calibration is provided. The method comprises receiving discontinuous reception period (DRX period) information from a base station, computing a calibration duration according to the discontinuous reception period and a clock error tolerance of a first clock, and when receiving paging information that informs of possible sent transmissions, calibrating the first clock with a second clock for a period of the calibration duration.

Abstract: A method for detecting a cable fault in a cabling of a flow meter is provided according to an embodiment of the invention. The method includes testing one or more first pickoff wires and one or more second pickoff wires of the cabling for pickoff open wire faults. The method further includes testing the first pickoff wires and the second pickoff wires for pickoff connection orientation faults if no pickoff open wire faults are determined in the first pickoff wires and the second pickoff wires. The method further includes testing one or more driver wires of the cabling for driver open wire faults. The method further includes testing the driver wires for a driver connection orientation fault if no driver open wire faults are determined in the driver wires.

Abstract: Resistivity images obtained by an imaging device in a borehole having oil-based mud may be of poor quality due to standoff variations, leakage currents and random noise. By processing the data using steps including median filtering, entropy equalization and bandpass filtering, the image quality can be considerably improved.

Abstract: Method and system providing an automated workflow for installing and/or calibrating laboratory equipment. The workflow empowers an end user to perform installation and calibration thereby reducing the costs associated with such activities. The automated workflow taught herein, can greatly reduce the incidence of calibration error by providing for verification of certain events during the calibration process.

Abstract: Systems and methods are disclosed herein to provide channel-to-channel skew control in accordance with one or more embodiments of the present invention. For example in accordance with an embodiment, a method of adjusting skew between first and second channels includes receiving a first channel output signal and a second channel output signal from the first and second channels, respectively; detecting a phase difference between the first channel output signal and the second channel output signal; and controlling, based on the detected phase difference, a signal delay within at least the first channel or the second channel to reduce skew between the first channel output signal and the second channel output signal.

Abstract: A method for calibrating vectorial network analyzers, which provide exactly n test ports, for the testing of electrical components with differential connections, where several calibration measurements are implemented, and where several different calibration standards are connected to the test ports. In the method, n is a positive integer greater than 1, and exactly one arbitrary test port is used as a reference test port. The following measurements are implemented for the calibration: (n?1) calibration measurements, where the reference test port is connected to every further test port respectively in its own calibration measurement by direct connections or short matched lines of known reflection, length and attenuation, one calibration measurement where all n test ports are terminated by respectively known input impedances of arbitrary transmission properties, and one calibration measurement where all n test ports are terminated by unknown, respectively-identical, reflecting terminations.

Abstract: A method for correcting errors in LWD depths includes performing torque and drag model analysis using drillstring weight, downhole friction, weight on bit, thermal expansion, rig heave and tide to produce a corrected time-depth file, wherein the torque and drag model is automatically calibrated using effective block weight, drillpipe wear, and sliding friction; and correcting time-based LWD data using the corrected time-depth file to produce depth-corrected LWD data. A system for correcting errors in LWD depths includes a processor and a memory that stores a program having instructions for: performing torque and drag model analysis using drillstring weight, downhole friction, weight on bit, thermal expansion, rig heave and tide to produce a corrected time-depth file, wherein the torque and drag model is automatically calibrated using effective block weight, drillpipe wear, and sliding friction; and correcting time-based LWD data using the corrected time-depth file to produce depth-corrected LWD data.

Abstract: Automatically determining operating parameters of a power management device is described.

Abstract: A method for positioning substrates in a substrate processing apparatus having a substrate alignment device, a first substrate transport apparatus and a second substrate transport apparatus, includes calibrating the substrate alignment device with a motion of the first substrate transport apparatus, and calibrating a coordinate system of the second substrate transport apparatus with the substrate alignment device.

Abstract: The present invention may include performing a first measurement process on a wafer of a lot of wafers, wherein the first measurement process includes measuring one or more characteristics of a plurality of targets distributed across one or more fields of the wafer, determining a set of process tool correctables for a residual larger than a selected threshold level utilizing a loss function, wherein the loss function is configured to fit a model for one or more process tools, as a function of field position, to one or more of the measured characteristics of the plurality of targets, wherein the set of process tool correctables includes one or more parameters of the model that act to minimize the difference between a norm of the residual and the selected threshold, and utilizing the determined process tool correctables to monitor or adjust one or more processes of the process tools.

Abstract: Assisted tuning of a capacitive monitoring component via a system, method, and a computer program product. Via a system, a software program can be adapted to execute on a computer communicatively connected to the capacitive monitoring component, with the program being further adapted to allow a user to selectively manipulate configuration parameters of the capacitive monitoring component as the user tests operation of the capacitive monitoring component to determine and select a plurality of desired parameters. A parameter data set can include the plurality of desired parameters, and be stored on a tangible medium of expression.

Abstract: A method and system for increasing optical instrument calibration and prediction accuracy within and across different optical instrument platforms can comprise two main submethods or routines. The first routine can include one for correcting differences among optical instruments of different model types regardless of the manufacturer and correcting differences among optical instruments of the same model type. The second main routine or sub-method can include one for analyzing new samples of a product over time and maintaining prediction accuracy as compared to a reference method over time. The first routine can include a “TRANS” procedure, a “MIN” procedure, and checkcell tests. The second main routine provides techniques on how a product database can be cleaned, condensed, and expanded automatically as it is used by one or more different optical instruments.

Abstract: In a method and apparatus for calibrating a position sensor mounted on the shaft of a permanent magnet synchronous motor, to control the position of a rotor of the permanent magnet synchronous motor relative to a magnetic field produced by a stator of the permanent magnet synchronous motor, a DC test current is supplied to stator windings of the permanent magnet synchronous motor to generate a definite magnetic field. The motor speed caused by the DC test current is adjusted to zero by modifying the rotor position; and the position measured by the position sensor at zero motor speed relative to the magnetic field is used to calibrate the position sensor.

Abstract: Clock compensation for GPS receivers. A receiver in accordance with the present invention comprises a Radio Frequency (RF) portion, and a baseband portion, coupled to the RF portion, wherein the baseband portion comprises a crystal, an oscillator, coupled to the crystal, wherein the oscillator generates a clock signal based on a signal received from the crystal, a counter, coupled to the oscillator via the clock signal, a comparator, coupled to the counter, a controller, at least one logic gate, coupled to the comparator and the controller, and a combiner, coupled to the at least one logic gate, the controller, and the counter and producing an accurate clock signal therefrom.

Abstract: Human contact/non-contact is detected speedily and accurately. A measurement section measures capacitance of each of sites to which a plurality of electrodes are connected where a human body touches, a comparison section compares the capacitance with a threshold value for each contacting electrode, and a control section determines whether a human body has come in contact based on the comparison result.

Abstract: Methods and apparatus for providing data processing and control for use in a medical communication system are provided.

Abstract: A magnetic field sensor for detecting first, second, and third spatial components of a magnetic field at a reference point includes a first sensor element arrangement for detecting the first magnetic field component having a first measurement field component and a first calibration field component with respect to a first spatial axis at a reference point, a second sensor element arrangement for detecting the second magnetic field component having a second measurement field component and a second calibration field component with respect to a second spatial axis y at the reference point and a third sensor element arrangement for detecting the third magnetic field component having a third measurement field component and a third calibration field component with respect to a third spatial axis x at the reference point.

Abstract: A method for determining an ambient light type is described. The method includes receiving measurement information from multiple photodetectors configured for different light spectra, calculating a color ratio using the measurement information, obtaining a correction value using the color ratio, applying the correction value to at least one of the first and second measurement information to obtain a photopic illuminance value, and determining an ambient light type using the photopic illumination value and the color ratio.

Abstract: A calibration device comprises a relative-value correction unit that performs a normalization for the measured output value based on a possible range of a measured output value and a normalization for a desired output value corresponding to the measured output value based on a range of the desired output value, an absolute-value correction unit that performs a normalization for the measured output value and the desired output value based on the range of the desired output value, a relative-value calibration unit that calibrates the measured output value normalized by the relative-value correction unit with reference to a characteristic of the desired output value normalized by the relative-value correction unit, and an absolute-value calibration unit that calibrates the measured output value normalized by the absolute-value correction unit with reference to the desired output value normalized by the absolute-value correction unit.

Abstract: Methods for normalizing output from an instrument employing a reference standard or non-fluorescing substance disposed within at least one of a plurality of reaction chambers. The method comprises collecting and analyzing a signal associated with the reference standard or non-fluorescing substance to determine a normalizing bias. The normalizing bias is then applied to the data signal collected from a remainder of the plurality of reaction chambers.

Abstract: System and method for communicating glucose concentration information between devices of a continuous glucose monitoring system is provided. The continuous glucose monitoring system can include a sensor module generates a glucose concentration measurement data and transmits the data to one or more further devices of the continuous glucose monitoring system. The further devices can include a receiver unit and one or more secondary display devices. The receiver unit can be configured to be a stand-alone device of or physically connect to a secondary display device. A user interface can also be provided that provides enhanced functionality for using the continuous glucose monitoring system.

Abstract: Memory power estimation by means of calibrated weights and activity counters are generally presented. In this regard, in one embodiment, a memory power is introduced to read a value from a memory activity counter, to determine a memory power estimation based at least in part on the value and a calibration, and to store the memory power estimation to a register. Other embodiments are also described and claimed.

Abstract: A corrective method is described for processing results of transcriptome experiments obtained by differential analysis includes the following steps: obtaining the results of the level of expression of genes under a reference condition, and calculating the mean level of expression of each of such genes; obtaining the results of the level of expression of such genes under a treatment condition, and calculating the mean level of expression for each of such genes; calculating the modulation coefficient for the level of expression for each of such genes; calculating a p-value associated with each modulation coefficient; and calculating isobar curves of p-value as a function of the mean level of expression of each of such genes under the reference condition; calculating and associating a median modulation coefficient on the isobar curve of each p-value observed. The processing of results of experiments carried out on DNA chips is also described.

Abstract: A spectral measurement device includes: an optical band-pass filter section that has first to n-th wavelengths (n is an integer of 2 or more) having a predetermined wavelength width as a spectral band thereof; a correction operation section that corrects a reception signal based on an output optical signal from the optical band-pass filter section; and a signal processing section that executes predetermined signal processing based on the reception signal corrected by the correction operation section that corrects the reception signal based on the change in the spectral distribution of the reception signal.

Abstract: A method and hand-held scanning apparatus for three-dimensional scanning of an object is described. The hand-held self-referenced scanning apparatus has a light source for illuminating retro-reflective markers, the retro-reflective markers being provided at fixed positions on or around the object, a photogrammetric high-resolution camera, a pattern projector for providing a projected pattern on a surface of the object; at least a pair of basic cameras, the basic camera cooperating with light sources, the projected pattern and at least a portion of the retro-reflective markers being apparent on the 2D images, a frame for holding all components in position within the hand-held apparatus, the frame having a handle, the frame allowing support and free movement of the scanning apparatus by a user.

Abstract: A method for calibration of at least one angle sensor sensing an angular position of a pivotable element rotatable from a first position to a maximum position is provided, wherein during an operation time of the pivotable element at least one adjustable angle corresponding to an extreme value of the angle sensor is automatically maintained or updated depending on at least one measured angle determined by the at least one angle sensor.