| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 702090000 | Error due to component compatibility | 6 |
| 20080300811 | Method For Compensating For A Contaminated Calibration Target Used In Calibrating A Scanner - A method for compensating for a contaminated calibration target used in calibrating a scanner having a plurality of sensor pixels includes (a) scanning a calibration target to generate a respective plurality of calibration data samples for each sensor pixel of the plurality of sensor pixels; (b) for calibration data samples associated with a current sensor pixel of the plurality of sensor pixels, removing any calibration data sample that corresponds to a region of calibration target contamination, leaving filtered calibration data samples; (c) determining a gain value for the current sensor pixel based on the filtered calibration data samples; (d) repeating acts (b) and (c) for a next sensor pixel until a respective gain value is determined for each of the plurality of sensor pixels; and (e) applying the determined gain values to the plurality of sensor pixels for use in subsequent image scanning by the scanner. | 12-04-2008 |
| 20110137599 | COMPENSATION ARRANGEMENT AND METHOD FOR OPERATION THEREOF - An arrangement and method for providing compensation to a cyclical input signal is disclosed. The arrangement comprises a first detection unit ( | 06-09-2011 |
| 20140297212 | Systems and Methods for Compensating for a Misalignment Angle Between an Accelerometer and a Magnetometer - A method for compensating for a misalignment angle between an accelerometer and a magnetometer includes applying a corrective rotation to collected accelerometer data or magnetometer data based on an estimated misalignment angle between an axis of the accelerometer and an axis of the magnetometer. The method further includes estimating a gravity vector using the corrected accelerometer data and estimating a magnetic field vector using the corrected magnetometer data. Additionally, the method includes calculating a characteristic that is a function of a calculated angle between the estimated gravity vector and the estimated magnetic field. The method also includes calculating a figure of merit over the plurality of times that is a function of the characteristic, and dynamically adjusting the estimated misalignment angle during ordinary use of the electronic device such that the figure of merit converges to a value as the electronic device rotates. | 10-02-2014 |
| 702091000 | Having interchangeable sensors or probes | 3 |
| 20100250175 | SMART PROBE - The present system, method, article of manufacture, software, and apparatus is an “intelligent” probe system and components thereof and may openly encompass, in at least an embodiment, an embedded IC chip located in an interchangeable probe(s) which offers repeatable, fast, easy, and error free probe swapping on a CCM. | 09-30-2010 |
| 20140058693 | VIRTUAL MODEL ADAPTER REMOVAL AND SUBSTITUTION TECHNIQUE FOR CASCADED NETWORKS - System and methods may allow an operator of a signal measurement instrument to characterize and calibrate a network with unsupported connector types, e.g., not traceable to known standards. Adapters having supported and unsupported interfaces can be used to measure the system responses of networks in a system under test. These measurements can be mathematically cascaded to deduce virtual models that produce an accurate and fully calibrated total system response. | 02-27-2014 |
| 20150120231 | Method for Function Setting of a Measuring Point and Measuring Point - A measuring point and method for function setting of a measuring point of process automation technology, wherein the measuring point comprises at least one sensor and a transmitter circuit. The sensor is connected via the transmitter circuit with a superordinated data processing system. The method comprises steps as follows: disconnecting the sensor from the transmitter circuit; connecting a mobile unit with the transmitter circuit and transferring parameters from the mobile unit into the transmitter circuit; disconnecting the mobile unit; connecting a, or the, sensor with the transmitter circuit; and transferring at least one parameter from the transmitter circuit into the sensor. | 04-30-2015 |
