Abstract: A method of dynamically adjusting threshold values for an electronic device is disclosed. The method comprises setting the base proximity value to a maximum proximity value; polling a detected proximity value; determining a first range where the detected proximity value falls according to a mapping table; setting the base proximity value to a largest value of the first range; determining a high threshold value and a low threshold value according to the base proximity value; and resetting the base proximity value to a default value when the proximity function is disabled.

Abstract: In some embodiments, apparatus and systems, as well as methods, may operate to acquire borehole standoff data (321), segregate the standoff data into a plurality of azimuthal bins (363), derive a plurality of diameters from the standoff data in the bins, determine an average borehole diameter from the plurality of diameters (367), calculate a standard deviation from the average borehole diameter (375), and compute a caliper measurement (383), a major elliptical axis length, and a minor elliptical axis length based on the average borehole diameter and the standard deviation (387).

Abstract: The present invention relates to a system, method, and computer program product for generating a drive signal for a vibrating measuring device (5). A drive chain (C1, C2, C3, CN) is selected from at least two drive chains (C1, C2, C3, CN). Each drive chain (C1, C2, C3, CN) modifies at least one pick-off signal to generate the drive signal. Each drive chain (C1, C2, C3, CN) generates a different mode of vibration in the at least one conduit (103A). The drive signal generated by the selected drive chain (C1, C2, C3, CN) is provided to a drive (104) of the vibrating measuring device (5).

Abstract: Apparatus for and a method of processing sensor data, the method including: using a sensor, measuring values of a parameter over a region of interest to produce an image of the region of interest, the image having a plurality of pixels; for each pixel, determining an orientation of a gradient of the parameter, at that pixel, using the measured parameter values; for each of a plurality of predetermined ranges of gradient orientation values, determining a number of pixels that have a gradient orientation value within that range; identifying the predetermined ranges that correspond to a number of pixels above a threshold value; and for each identified predetermined range, identifying as corresponding to a feature of an object, pixels that have gradient orientation values within that predetermined range.

Abstract: A disclosed input apparatus includes an operating part pressed by a user; a first resistance film and a second resistance film facing each other; a measuring unit configured to measure a difference between a first electric potential of a first end of a contact resistance and a second electric potential of a second end of the contact resistance; and a detecting unit configured to obtain pressure information indicative of a pressure load caused by the pressing of the operating part based on the difference in electric potential.

Abstract: According to one embodiment, a coordinate recognition apparatus includes a detection device, a first calculation section, a second calculation section, and a setting section. The detection device detects an operation for an operation area. The first calculation section calculates coordinates of an operation position by a user on the basis of the detection result of the detection device. The second calculation section calculates the smoothed coordinates by smoothing a particular number m (m>0) of samples among the coordinates calculated by the first calculation section counted from the new one in a calculation order. The setting section sets a value of the number m of samples to be smaller as the speed of movement of the operation position is higher.

Abstract: Integrated circuits such as programmable integrated circuits may include calibration circuitry for calibrating memory interface circuitry. The calibration circuitry may include processing circuitry and test circuitry. The processing circuitry may provide instructions to the test circuitry and direct the test circuitry to begin processing at a selected instruction. The test circuitry may retrieve data storage addresses and control signal storage addresses from the instructions. The test circuitry may use the data storage address to retrieve test data from data storage circuitry and may use the control signal storage address to retrieve control signal data from control signal storage circuitry. The control signal, address, and test data may be provided to the memory interface circuitry. The test circuitry may verify data received from the system memory during instruction processing.

Abstract: A method of determining a common blade frequency of a rotor of a wind turbine is provided. The method includes measuring a vibration quantity representative of a vibration of a component of the wind turbine, and determining the common blade frequency based the measured vibration quantity.

Abstract: A method and associated apparatus using delay correlation for determining whether an input signal is a target signal is provided. The method includes sampling the input signal to generate 2N sample values, the sample values having a period N, where N is a positive integer; calculating the 2N sample values to obtain a first value according to a first operation method; calculating the 2N sample values to obtain a second value according to a second operation method; obtaining a determination value according to the first value and the second value; and determining whether the input signal is the target signal according to the determination value and a threshold.

Abstract: Embodiments of the present invention provide a current sensor package for sensing a current flowing in a primary conductor of a substrate. The current sensor package includes a magnetic field sensor, a calibration current provider and a controller. The calibration current provider is configured to provide a calibration current for a calibration conductor of the substrate, wherein the calibration conductor and the primary conductor are arranged in a defined spatial relation to each other on the substrate. The magnetic field sensor element is configured to sense a magnetic field of the primary current flowing in the primary conductor in order to provide a primary sensor signal and to sense a magnetic field of the calibration current flowing through the calibration conductor to provide a calibration sensor signal.

Abstract: A method for determining an equivalent mechanical load of a component includes a dynamic mechanical loading. A first measurement value of the mechanical load of the component is measured and compared to a first reference value. Further, at least one count value representing the number of load half-cycles of the component is updated based upon the result of comparing, wherein the load half-cycles correspond to a predetermined range of mechanical loads and occur within a time period prior to the measurement of the first measurement value. A first equivalent mechanical load of the component is determined based on the first updated count value. It is further described a program element and a computer-readable medium having stored a program for controlling the described equivalent mechanical load determining method.

Abstract: In needle-based dispensing systems, the target amount of liquid to be dispensed is in many cases very well controlled. However, the amount of liquid that is actually reaching the receiving well may show a discrepancy, because part of the liquid leaving the inner needle space remains on the outer surface of the dispense needle, and so a small amount of liquid is “lost” in the dispensing act. A sensor arrangement according to the present invention is suitable for detecting the presence of any liquid from the aspiration reservoir that is left behind on the outside of the dispense needle, before the dispense step is actually started. The “lost” volume can also be measured very accurately by inserting the tip of a dispense needle into a hollow metallic cylinder, forming a capacitor, whereby the capacitance value depends on the volume of the “lost” dispense volume.

Abstract: A tool path display apparatus (20) includes a tool coordinate value calculation unit (22) that calculates tool commanded coordinate values and tool actual coordinate values, based on commanded value time series data of position commands for a plurality of axes, detected value time series data of position detected values for the plurality of axes, and the structure of a machine tool, an acceleration calculation unit (23) that calculates accelerations of a tip point of a tool using the tool commanded coordinate values and the tool actual coordinate values, and a display format selection unit (24) that selects display formats of the accelerations of the tool commanded coordinate values and the tool actual coordinate values.

Abstract: A novel indentation test apparatus is provided. The indentation test apparatus is an apparatus for indenting a specimen with a spherical indenter. The indentation test apparatus includes a specimen thickness identifier) that identifies the thickness of the specimen, an equivalent indentation strain calculator that calculates equivalent indentation strain of the specimen by using the thickness of the specimen, and a Young's modulus calculator that calculates Young's modulus of the specimen by using the equivalent indentation strain. Young's modulus E of the specimen preferably ranges from 100 Pa to 100 MPa. The diameter of the spherical indenter preferably ranges from 1×10?8 to 1 m.

Abstract: Exemplary embodiments of a methodology, procedure, system, method and computer-accessible medium can be provided to obtain particular information relating to at least one transport property of a material containing at least one membrane, and to determine, e.g., a permeability of the membrane of the material and/or a surface area of the membrane of the material, as a function of, e.g., the obtained particular information.

Abstract: Statistically representing point-to-point photovoltaic power estimation and area-to-point conversion of satellite pixel irradiance data are described. Accuracy on correlated overhead sky clearness is bounded by evaluating a mean and standard deviation between recorded irradiance measures and the forecast irradiance measures. Sky clearness over the two locations is related with a correlation coefficient by solving an empirically-derived exponential function of the temporal distance. Each forecast clearness index is weighted by the correlation coefficient to form an output set of forecast clearness indexes and the mean and standard deviation are proportioned. Additionally, accuracy on correlated satellite imagery is bounded by converting collective irradiance into point clearness indexes. A mean and standard deviation for the point clearness indexes is evaluated. The mean is set as an area clearness index for the bounded area.

Abstract: The present invention provides a meter retrofit and method for use thereof, utilizing a transducer with an encoder driven by a rotating shaft of a meter reading dial, the transducer including a plurality of encoder contacts surrounding a rotation axis, with each encoder contact connected to a magnetic switch. A wiper connects to the shaft and rotates around the rotation axis, sequentially contacting the plurality of encoder contacts, providing a variable signal to a monitoring device.

Abstract: A method, apparatus, article of manufacture, and a memory structure for providing advertisements with a media program transmitted to a user device are described. The method permits the user to control the presentation of advertisements. In one embodiment, the method receives an identification of the media program to be sent to the user device, transmits metadata defining an advertising break having at least one advertisement opportunity within the media program, at the advertisement opportunity, transmits advertising control options, receives a user selection for the advertising control options, sends the advertisement to the user device according to the user selection for the advertising control options, receives advertising viewing data describing the streaming of the advertisement to the user device, and stores the advertisement viewing data.

Abstract: An experimental melting curve is modeled as a sum of a true melting curve and background fluorescence. A deviation function may be generated based upon the experimental melting curve data and a model of a background signal. The deviation function may be generated by segmenting a range of the experimental curve into a plurality of windows. Within each window, a fit between the model of the background signal and the experimental melting curve data may be calculated. The deviation function may be formed from the resulting fit parameters. The deviation function may include background signal compensation and, as such, may be used in various melting curve analysis operations, such as data visualization, clustering, genotyping, scanning, negative sample removal, and the like. The deviation function may be used to seed an automated background correction process. A background-corrected melting curve may be further processed to remove an aggregation signal.

Abstract: An image forming system includes an image forming apparatus and a server. The image forming apparatus i) forms an image, ii) measures position information of the formed image, iii) detects environment information, iv) determines first correction data based on the measured position information, v) determines second correction data from the detected environment information by using a transfer function, vi) corrects a position of an image to be formed based on the first correction data and the second correction data, and vii) transmits the position information and the environment information to the server.