Patent application number | Description | Published |
20090210083 | SYSTEM AND METHOD FOR ELECTRONIC INSPECTION AND RECORD CREATION OF ASSEMBLY, REPAIR AND MAINTENANCE OPERATIONS - A system and method for generating a real time electronic quality record of an assembly, test, and repair or maintenance operation. The method involves generating inputs from a plurality of information sources located within a manufacturing environment, the information sources providing information pertaining to at least a tool being used, an individual using the tool, and an operation that the tool is being used by the individual to perform. A locating system is in communication with the information sources to monitor a location and an operation of the tool. A processor is in communication with the locating system to receive the generated inputs, and to generate a real time electronic record upon completion of the operation that the tool is being used to perform. The electronic record shows that the operation has been performed by a given individual using the tool in accordance with a predefined standard. In various embodiments various databases containing tool calibration information, user training and/or certification information, and drawing or process information may be used by the processor in formulating the real time electronic record. | 08-20-2009 |
20090326904 | Apparatus and method for virtual assembly, integration and testing of an integrated system - An apparatus for testing a subsystem of a plurality of subsystems capable of being assembled to form an integrated system may include an integration stand for testing the subsystem without actual physical assembly of the plurality of subsystems which form the integrated system. The integration stand may include an interface to connect the subsystem to the integration stand for testing. The integration stand may also include a network device for connecting the integration stand to a communications network for communications between the subsystem and any other subsystems of the plurality of subsystems available via the network. In this way, the subsystem and the other subsystems may be virtually assembled and integrated to virtually form the integrated system for interoperability of the subsystems and testing without actual physical assembly of the plurality of subsystems. The integration stand may also include a simulation unit to simulate any other subsystems forming the integrated system, which are unavailable via the communications network, to virtually form the integrated system for testing the subsystem connected to the interface of the integration stand. | 12-31-2009 |
20100050726 | Superplastically Continuous Roll Forming Titanium - A method of forming titanium structures, and more specifically, a method of superplastically continuous roll forming titanium structures are disclosed herein. In one embodiment, a method of forming a shape in an article comprising titanium, the method including, among other things, providing first and second rolling members, the first rolling members being conductive and the second rolling members being continuous roll shaping members; contacting the article with the first rolling members to transfer a current to the article to heat the article to a temperature suitable for superplastic forming; and with the article being in a superplastic state, contacting the article with the second rolling members to form the shape in the article. | 03-04-2010 |
Patent application number | Description | Published |
20100073284 | SYSTEM AND METHOD FOR ANALYZING MOVEMENTS OF AN ELECTRONIC DEVICE - The disclosure relates to a system and method for analyzing movements of a handheld electronic device. The system comprises: memory; a microprocessor; a first module to generate movement data responsive to movements of the device; a second module providing instructions to the microprocessor to map the movement data to a string representation relating to symbols in a spatial coordinate system associated with the device and store the string representation in the memory; and a third module. The third module provides instructions to the microprocessor to analyze data relating to the string representation against data relating to a gesture string representing a gesture related to a command for the device to determine if the gesture has been imparted on the device; and if the string representation sufficiently matches the gesture string, executes a command associated with the gesture on the device. | 03-25-2010 |
20100223582 | SYSTEM AND METHOD FOR ANALYZING MOVEMENTS OF AN ELECTRONIC DEVICE USING ROTATIONAL MOVEMENT DATA - The disclosure relates to a system and method for analyzing movements of a handheld electronic device. The system comprises: memory; a microprocessor; a first module to generate movement data responsive to movements of the device, such as rotational movements; a second module providing instructions to the microprocessor to map the movement data against symbols representing an input movement string and store the string representation in the memory; and a third module. The third module provides instructions to the microprocessor to analyze data relating to the string representation against data relating to a gesture string representing a gesture related to a command for the device to determine if the gesture has been imparted on the device; and if the string representation sufficiently matches the gesture string, executes a command associated with the gesture on the device. | 09-02-2010 |
20110105096 | SYSTEM AND METHOD FOR ACTIVATING A COMPONENT ON AN ELECTRONIC DEVICE - The disclosure describes a system and method for activating an electronic device from a low power state. The method comprises: monitoring a motion detection circuit for a signal indicating a movement of the device; analyzing the movement of the device and if the movement matches a profile for an activation movement for the device then activating a component on the device; and if the movement does not match the profile, then monitoring for additional movement signals for the device and providing data relating to the additional movement signals to a microprocessor in the device at an instance where the microprocessor is expected to be monitoring for receipt of a synchronization signal from a network in communication with the device is expected and when the instance is passed, the device is placed in second power operating mode, the second power operating mode consuming less power than the first power operating mode. | 05-05-2011 |
20110302249 | METHOD FOR ASSISTED MESSAGE GENERATION - A method for assisted message generation on an electronic device is provided. The method comprises: receiving from an input device a request to compose an electronic message; identifying a message recipient associated with the electronic message; determining from a datastore a suggested message component for the electronic message in dependence on the identified message recipient; and displaying the suggested message components on a display screen of the electronic device. | 12-08-2011 |
20120096921 | System and Method for Calibrating a Magnetometer According to a Quality Threshold - A method and system are provided for calibrating a magnetometer. The method comprises determining a current quality level associated with magnetometer readings obtained using an active set of calibration parameters; and lowering a quality threshold for a background calibration of the magnetometer when the current quality level exceeds a threshold quality level needed by an application utilizing the magnetometer readings. | 04-26-2012 |
20120169327 | SYSTEM AND METHOD FOR USING MAGNETOMETER READINGS TO CONTROL ELECTRONIC DEVICES - A method and system are provided for controlling an electronic device, such as a mobile device. The method comprises using a magnetometer of the electronic device to obtain a reading; determining whether one or more properties of the reading matches at least one magnetic signature from a set of magnetic signatures, each magnetic signature being indicative of an expected magnetic influence from another object; if the one or more properties match a particular magnetic signature from the set of magnetic signatures, determining one or more actions associated with the particular magnetic signature; and enabling the one or more actions to be performed using the electronic device. | 07-05-2012 |
20120172061 | DEVICE POSITION METHOD AND APPARATUS USING CELESTIAL OBJECTS - A system and method of determining a position of an electronic device is presented herein. An image is displayed having at least one celestial object and a celestial object indicator for selecting a celestial object. The celestial object indicator is overlaid on the at least one celestial object. Data indicating a relative angle of the device with respect to the Earth in at least two dimensions is received at the processor. The time when the celestial object indicator is overlaid on the at least one celestial object is determined. The position of the electronic device is determined by comparing the location of the celestial object in the image data and relative angle information at the time of the indication to a database at least partially stored on the electronic device in response to an indication that the celestial object indicator is overlaid on the at least one celestial object. | 07-05-2012 |
20120284427 | METHOD OF DEVICE SELECTION USING SENSORY INPUT AND PORTABLE ELECTRONIC DEVICE CONFIGURED FOR SAME - The present disclosure provides a method of device selection using sensory input and portable electronic device configured for same. In accordance with one example embodiment, there is provided a method for use in a portable electronic device for selecting a peripheral device for connection with the portable electronic device, comprising: measuring a magnetic field within the vicinity of the portable electronic device; determining a relative location of at least two available peripheral devices in accordance with magnetic fields uniquely associated with the at least two available peripheral devices; selecting a peripheral device from the at least two available peripheral devices in accordance with the measured magnetic field; and connecting the portable electronic device to the selected peripheral device using a wireless communications path. | 11-08-2012 |
20120285274 | SYSTEM AND METHOD FOR OBTAINING MAGNETOMETER READINGS FOR PERFORMING A MAGNETOMETER CALIBRATION - A system and method of obtaining magnetometer readings for performing a magnetometer calibration are provided. The method comprises detecting initiation of a magnetometer calibration; displaying a plurality of visual elements representing at least a pair of movements, each of the movements orienting a device comprising the magnetometer in substantially opposite positions along a respective axis; and obtaining at least one magnetometer reading during movement of the device. The visual elements may include one in an upright position, one in an upside down position, one facing a first direction and one illustrating the device facing in a second direction. A path may also be defined between the plurality of visual elements using one or more arrows. | 11-15-2012 |
20130103856 | METHOD OF DEVICE SELECTION USING SENSORY INPUT AND PORTABLE ELECTRONIC DEVICE CONFIGURED FOR SAME - The present disclosure provides a method of device selection using sensory input and portable electronic device configured for same. In accordance with one example embodiment, there is provided a method for use in a portable electronic device for selecting a peripheral device for connection with the portable electronic device, comprising: measuring magnetic fields within the vicinity of the portable electronic device; identifying at least two peripheral devices in accordance with measured magnetic fields and one or more distinct characteristics of a magnetic field generated by each of the at least two peripheral devices which uniquely identify each of the at least two peripheral devices; and connecting the portable electronic device to one of the at least two peripheral devices using a wireless communications path. | 04-25-2013 |
20130200882 | METHODS AND DEVICES FOR DETECTING MAGNETIC INTERFERENCE AFFECTING THE OPERATION OF A MAGNETOMETER - Methods and apparatus employing non-magnetometer navigational sensor data to assist in determining whether a change in a magnetic field detected by a magnetometer is likely due to a source of internal or external magnetic interference, and more generally, whether such interference is likely to be persistent or transient. If the magnetic field data detected by the magnetometer indicates a large change in magnetic field, but the non-magnetometer navigational sensor (e.g., gyroscope) data does not indicate a corresponding change in orientation of the mobile device contemporaneous with the change in magnetic field, then the cause of the magnetic field change may be determined as likely originating from a localized external interference source and the device may prompt the user to move away from the interference source, rather than initiating a recalibration of the magnetometer. | 08-08-2013 |
20130342437 | IMAGE DATA GENERATION USING A HANDHELD ELECTRONIC DEVICE - The present disclosure provides improved generation of images using a handheld electronic device. Motion of the handheld electronic device is detected using a sensor of the handheld electronic device and data, dependent upon the sensed motion, is transmitted from the device to a remote electronic device. An image, representative of the sensed motion of the handheld electronic device and generated from the transmitted data, is rendered on a display of the remote electronic device and provides a user with visual feedback of the motion of the handheld electronic device. The image data may be generated by the handheld electronic device or by the remote electronic device. | 12-26-2013 |
Patent application number | Description | Published |
20080205886 | Method and Device for In-Band Optical Performance Monitoring - A method and device for determining in-band noise of an optical signal. The optical signal is split to produce two optical signal components, of distinct polarisation, such that the respective noise component in each signal component is uncorrelated. The optical signal components are converted to the electrical domain to produce electrical signal components. The signal component powers are equalised either in the optical domain or the electrical domain. The equalised electrical signal components are then subtracted together to cancel the correlated portions of the signal components (e.g. the data signal), such that only uncorrelated signal components (e.g. noise) are output for measurement. | 08-28-2008 |
20090028554 | METHOD AND APPARATUS FOR SAMPLED OPTICAL SIGNAL MONITORING - Monitoring an optical signal comprises sampling the optical signal from two or more distinct tap points to retrieve a sample set. Multiple such sample sets are obtained over time. A joint probability distribution or phase portrait of the sample sets is assessed for indications of optical signal quality. The tap distinction can be polarisation, for example to determine OSNR, or frequency. The tap distinction can be a time delay, which can enable diagnostic differentiation between multiple impairments, such as OSNR, dispersion, PMD, jitter, Q, and the like. Machine learning algorithms are particularly suitable for such diagnosis, particularly when provided a two dimensional histogram of sample density in the phase portrait. | 01-29-2009 |