Patent application number | Description | Published |
20100078562 | HIDDEN SENSORS IN AN ELECTRONIC DEVICE - An electronic device having one or more sensors is provided. The sensors may include any suitable type of sensor, including for example a proximity sensor, an ambient light sensor, or any other suitable type of sensor that emits or receives radiation (e.g., light waves) from the environment. The electronic device may include openings through which radiation may reach the sensors while keeping the sensors hidden from view. In some embodiments, the sensors may be placed underneath an opening used for an audio receiver such that radiation is piped to the sensors using a light path or a chamfered surface along the opening. In some embodiments, the sensors may be embedded in a screen such that the radiation emitted by the sensors exits the screen instead of being reflected on the screen (e.g., to provide content displays). In some embodiments, the sensors may be placed along the periphery of the display, such that access to the sensors is provided via discontinuities in a gasket used to couple the display to the electronic device. | 04-01-2010 |
20130328825 | DETECTION SYSTEM AND METHOD BETWEEN ACCESSORY AND ELECTRONIC DEVICE - Accurate and reliable techniques for determining information of an accessory device in relation to an electronic device are described. | 12-12-2013 |
20130328914 | PEEK MODE AND GRAPHICAL USER INTERFACE (GUI) EXPERIENCE - A tablet device determines a spatial relationship between the tablet device and a protective cover. The tablet device operates in accordance with the spatial relationship. | 12-12-2013 |
Patent application number | Description | Published |
20120072167 | SENSOR FUSION - Accurate and reliable techniques for determining a current status of an accessory device in relation to an electronic device are described. | 03-22-2012 |
20120083208 | WIRELESS ACCESSORY DEVICE PAIRING TRANSFER BETWEEN MULTIPLE HOST DEVICES - A wireless communications system includes an accessory device and multiple host devices. A host device pairs wirelessly with an accessory device using a unique link key, detects a primary trigger event and responds by transferring automatically its pairing with the accessory device to a second host device while all devices remain within wireless range of each other. The pairing transfer involves communicating the link key to the second host device, unpairing the accessory device from the first host device, and establishing a wireless pairing of the accessory device to the second host device. The primary trigger event can involve establishing a ported connection between host devices. A secondary trigger event results in the first host device automatically reclaiming its pairing with the accessory device. An accessory device can also select and pair with one of multiple host devices in response to a specific user gesture detected by the accessory device. | 04-05-2012 |
20120306770 | MOTION-BASED DEVICE OPERATIONS - Methods, program products, and systems of motion-based device operations are described. A mobile device can coordinate operations of a motion sensor and a proximity sensor. The mobile device can determine a gesture event using the motion sensor. The mobile device can determine a proximity event using the proximity sensor. The mobile device can use the gesture event and proximity event to confirm one another, and determine that the mobile device has moved in proximity to a target object following a specified gesture. Upon confirmation, the mobile device can perform a specified task. | 12-06-2012 |
20130075613 | HIDDEN SENSORS IN AN ELECTRONIC DEVICE - An electronic device having one or more sensors is provided. The sensors may include any suitable type of sensor that emits or receives radiation (e.g., light waves) from the environment. The electronic device may include openings through which radiation may reach the sensors while keeping the sensors hidden from view. In some embodiments, the sensors may be placed underneath an opening used for an audio receiver such that radiation is piped to the sensors using a light path or a chamfered surface along the opening. In some embodiments, the sensors may be embedded in a screen such that the radiation emitted by the sensors exits the screen instead of being reflected on the screen. In some embodiments, the sensors may be placed along the periphery of the display, such that access to the sensors is provided via discontinuities in a gasket used to couple the display to the electronic device. | 03-28-2013 |
20130076614 | ACCESSORY DEVICE - Accurate and reliable techniques for determining information of an accessory device in relation to an electronic device are described. | 03-28-2013 |
20130080762 | SENSOR FUSION - Accurate and reliable techniques for determining a current status of an accessory device in relation to an electronic device are described. | 03-28-2013 |
20130145061 | PERIPHERAL DEVICE MAPPING - Systems and methods related to providing peripheral device functionality is described herein. In one embodiment, a method of operating a host computing device is described. The method includes communicatively coupling with a keyboard and querying the keyboard for a descriptor. Receiving the descriptor from the keyboard, wherein the descriptor includes data representative of a language, layout, and key mappings for the keyboard. Storing the data from the descriptor at the host and publishing strings for proper translation and interpretation of input received from the keyboard. | 06-06-2013 |
20130191625 | DYNAMIC PARAMETER PROFILES FOR ELECTRONIC DEVICES - A method for dynamically modifying a characteristic for an electronic device. The method includes activating by a processor a first profile having a first characteristic setting and a first state for an input/output (IO) device. Once the first profile is activated, receiving an input by a sensor and communicating the input to the processor. The method then includes activating by the processor a second profile having a second characteristic setting and a second state for the IO device. The second profile modifies a component of the IO device to include a second characteristic setting and a second state. | 07-25-2013 |
20140067293 | POWER SUB-STATE MONITORING - An electronic device that includes an integrated circuit and a memory is described. This integrated circuit monitors power sub-states within different operating modes of the electronic device. These power sub-states are associated with configurations of the electronic device and average power-consumption rates. Then, the integrated circuit stores information specifying a power-sub-state history of the electronic device in the memory, where the power-sub-state history includes amounts of time the electronic device was in one or more of the power sub-states. The stored information can be used to improve a power usage model for the electronic device and/or to modify a user experience, such as changing a performance of the electronic device or a time until a battery needs to be recharged. | 03-06-2014 |
20140077094 | HIDDEN SENSORS IN AN ELECTRONIC DEVICE - An electronic device having one or more sensors is provided. The sensors may include any suitable type of sensor that emits or receives radiation (e.g., light waves) from the environment. The electronic device may include openings through which radiation may reach the sensors while keeping the sensors hidden from view. In some embodiments, the sensors may be placed underneath an opening used for an audio receiver such that radiation is piped to the sensors using a light path or a chamfered surface along the opening. In some embodiments, the sensors may be embedded in a screen such that the radiation emitted by the sensors exits the screen instead of being reflected on the screen. In some embodiments, the sensors may be placed along the periphery of the display, such that access to the sensors is provided via discontinuities in a gasket used to couple the display to the electronic device. | 03-20-2014 |
20140121855 | SENSOR FUSION - Accurate and reliable techniques for determining a current status of an accessory device in relation to an electronic device are described. | 05-01-2014 |
Patent application number | Description | Published |
20110069031 | RF PULSE SYNCHRONIZATION FOR DATA ACQUISITION OPERATIONS - Data acquisition from a touch-surface input unit may be disrupted during the generation of radio frequency (“RF”) pulses. To mitigate this problem, touch-surface data acquisition is temporarily halted during RF pulse generation. Data collected prior to temporarily halting is retained, with subsequently acquired data being added to prior collected data. | 03-24-2011 |
20120019468 | SELECTIVE INPUT SIGNAL REJECTION AND MODIFICATION - Embodiments are related to user input devices that accept complex user input including a combination of touch and push (or pick) input. Embodiments of the invention provide for selective ignoring or rejection of input received from such devices in order to avoid interpreting unintentional user actions as commands. Furthermore, some input signals can be modified. The selective rejection or modification can be performed by the user interface device itself or by a computing device that includes or is attached to the user interface device. The selective rejection or modification may be performed by a module that processes input signals, performs the necessary rejections and modifications and sends revised input signals to higher level modules. | 01-26-2012 |
20120026123 | Compensation for Capacitance Change in Touch Sensing Device - This relates to compensation for undesirable capacitance changes in a touch sensing device, where the capacitance changes are not indicative of a touch at the device. The touch sensing device can include a touch sensor panel having touch sensors for sensing a touch at the panel, a flexible circuit for transmitting the sensed touch signal from the panel, and a touch controller for receiving and processing the transmitted signal. To compensate for the capacitance changes, the touch sensing device can include one or more reference conductive traces decoupled from touch sensors of the device to measure non-touch capacitances in the device. The touch sensing device can then adjust a touch signal from the touch sensors using the non-touch capacitance measurements to substantially reduce or eliminate the non-touch capacitances from the signal. | 02-02-2012 |
20120032895 | METHOD FOR DISAMBIGUATING MULTIPLE TOUCHES ON A PROJECTION-SCAN TOUCH SENSOR PANEL - A touch sensor panel is disclosed. The touch sensor panel includes a plurality of rows, at least one of the rows being a split row including a plurality of row subsections; and a plurality of columns, at least one of the columns being a split column including a plurality of column subsections. The touch sensor panel is configured with at least one split row and at least one split column located to increase a likelihood that a touch anywhere on the touch sensor panel overlaps with at least one split row and at least one split column. The rows and columns are individually charged electrodes capable of detecting a change in capacitance in a corresponding area of the touch sensor panel. | 02-09-2012 |
20120331546 | INTELLIGENT STYLUS - An intelligent stylus is disclosed. The stylus can provide a stylus condition in addition to a touch input. The stylus architecture can include multiple sensors to sense information indicative of the stylus condition, a microcontroller to determine the stylus condition based on the sensed information, and a transmitter to transmit the determined condition to a corresponding touch sensitive device so as to cause some action based on the condition. | 12-27-2012 |
20130018489 | COMBINED FORCE AND PROXIMITY SENSINGAANM GRUNTHANER; Martin PaulAACI Mountain ViewAAST CAAACO USAAGP GRUNTHANER; Martin Paul Mountain View CA USAANM ROTHKOPF; Fletcher R.AACI Los AltosAAST CAAACO USAAGP ROTHKOPF; Fletcher R. Los Altos CA USAANM MULLENS; Christopher TenzinAACI San FranciscoAAST CAAACO USAAGP MULLENS; Christopher Tenzin San Francisco CA USAANM HOTELLING; Steven PorterAACI Los GatosAAST CAAACO USAAGP HOTELLING; Steven Porter Los Gatos CA USAANM O'CONNOR; Sean ErikAACI Palo AltoAAST CAAACO USAAGP O'CONNOR; Sean Erik Palo Alto CA US - Combined force and proximity sensing is disclosed. One or more sensors can concurrently sense a force applied by an object on a device surface and a proximity of the object to the surface. In an example, a single sensor can sense both force and proximity via a resistance change and a capacitance change, respectively, at the sensor. In another example, multiple sensors can be used, where one sensor can sense force via either a resistance change or a capacitance change and another sensor can sense proximity via a capacitance change. | 01-17-2013 |
20130229376 | SELECTIVE INPUT SIGNAL REJECTION AND MODIFICATION - Embodiments are related to user input devices that accept complex user input including a combination of touch and push (or pick) input. Embodiments of the invention provide for selective ignoring or rejection of input received from such devices in order to avoid interpreting unintentional user actions as commands. Furthermore, some input signals can be modified. The selective rejection or modification can be performed by the user interface device itself or by a computing device that includes or is attached to the user interface device. The selective rejection or modification may be performed by a module that processes input signals, performs the necessary rejections and modifications and sends revised input signals to higher level modules. | 09-05-2013 |
20140354555 | DISPLAY, TOUCH, AND STYLUS SYNCHRONIZATION - A touch input device configured to synchronize a stylus acquisition process with both a touch data acquisition process and a display refresh process is provided. The touch input device can include one or more processors that can synchronize the stylus data acquisition process to the touch data acquisition process by coordinating stylus scans to take place in between touch scans. The one or more processors can also virtual data banks to synchronize both the touch data acquisition and the stylus scan acquisition with the display refresh process. | 12-04-2014 |
20150153865 | SELECTIVE INPUT SIGNAL REJECTION AND MODIFICATION - Embodiments are related to user input devices that accept complex user input including a combination of touch and push (or pick) input. Embodiments of the invention provide for selective ignoring or rejection of input received from such devices in order to avoid interpreting unintentional user actions as commands. Furthermore, some input signals can be modified. The selective rejection or modification can be performed by the user interface device itself or by a computing device that includes or is attached to the user interface device. The selective rejection or modification may be performed by a module that processes input signals, performs the necessary rejections and modifications and sends revised input signals to higher level modules. | 06-04-2015 |
20150277590 | SUPPRESSING ERRANT MOTION USING INTEGRATED MOUSE AND TOUCH INFORMATION - The suppression of errant motion regarding a mouse is disclosed. Mouse and touch information can be integrated to determine whether a gesture made on a surface of the mouse is errant, such as when a mouse is being moved and the fingers holding the mouse inadvertently move on the mouse surface. A gesture motion that is small relative to mouse motion can be considered errant and therefore at least partially suppressed, while a gesture motion that is large relative to mouse motion can be considered an intended gesture and therefore processed. Similarly, mouse and touch information can be integrated to determine whether a mouse motion is errant, such as when a robust gesture being made on the mouse surface inadvertently moves the mouse. A mouse motion that is small relative to gesture motion can be considered errant and therefore at least partially suppressed, while a mouse motion that is large relative to gesture motion can be considered an intended motion and therefore processed. | 10-01-2015 |
Patent application number | Description | Published |
20100117962 | Suppressing Errant Motion Using Integrated Mouse and Touch Information - The suppression of errant motion regarding a mouse is disclosed. Mouse and touch information can be integrated to determine whether a gesture made on a surface of the mouse is errant, such as when a mouse is being moved and the fingers holding the mouse inadvertently move on the mouse surface. A gesture motion that is small relative to mouse motion can be considered errant and therefore at least partially suppressed, while a gesture motion that is large relative to mouse motion can be considered an intended gesture and therefore processed. Similarly, mouse and touch information can be integrated to determine whether a mouse motion is errant, such as when a robust gesture being made on the mouse surface inadvertently moves the mouse. A mouse motion that is small relative to gesture motion can be considered errant and therefore at least partially suppressed, while a mouse motion that is large relative to gesture motion can be considered an intended motion and therefore processed. | 05-13-2010 |
20100139990 | Selective Input Signal Rejection and Modification - Embodiments are related to user input devices that accept complex user input including a combination of touch and push (or pick) input. Embodiments of the invention provide for selective ignoring or rejection of input received from such devices in order to avoid interpreting unintentional user actions as commands. Furthermore, some input signals can be modified. The selective rejection or modification can be performed by the user interface device itself or by a computing device that includes or is attached to the user interface device. The selective rejection or modification may be performed by a module that processes input signals, performs the necessary rejections and modifications and sends revised input signals to higher level modules. | 06-10-2010 |
20110007021 | TOUCH AND HOVER SENSING - Improved capacitive touch and hover sensing with a sensor array is provided. An AC ground shield positioned behind the sensor array and stimulated with signals of the same waveform as the signals driving the sensor array may concentrate the electric field extending from the sensor array and enhance hover sensing capability. The hover position and/or height of an object that is nearby, but not directly above, a touch surface of the sensor array, e.g., in the border area at the end of a touch screen, may be determined using capacitive measurements of sensors near the end of the sensor array by fitting the measurements to a model. Other improvements relate to the joint operation of touch and hover sensing, such as determining when and how to perform touch sensing, hover sensing, both touch and hover sensing, or neither. | 01-13-2011 |
Patent application number | Description | Published |
20110056909 | METHODS OF MAKING MEDICAL DEVICES - Scaffold-supported metal or pseudometallic film covers suitable for use as medical devices are disclosed together with methods of fabricating the devices. Methods for making the medical devices consist of either providing or forming a scaffold, then depositing a metallic or pseudometallic film cover onto the scaffold in such a manner as to form an integral, substantially monolithic junction between the deposited cover material and the scaffold. | 03-10-2011 |
20120197381 | STENT-GRAFT WITH PROXIMAL AND DISTAL ATTACHMENT, DELIVERY CATHETER AND METHODS OF MAKING SAME - A metallic or pseudometallic covered stent in which the stent component and the cover component are each fabricated of biocompatible metallic or pseudometallic materials, in which the cover and the stent are joined by at least one juncture at each of a proximal and distal end of the stent and the cover. A method of joining the stent and the cover is also disclosed. | 08-02-2012 |
20120325774 | METHODS OF MAKING MEDICAL DEVICES - Scaffold-supported metal or pseudometallic film covers suitable for use as medical devices are disclosed together with methods of fabricating the devices. Methods for making the medical devices consist of either providing or forming a scaffold, then depositing a metallic or pseudometallic film cover onto the scaffold in such a manner as to form an integral, substantially monolithic junction between the deposited cover material and the scaffold. | 12-27-2012 |
20140216637 | METHODS OF MAKING MEDICAL DEVICES - Scaffold-supported metal or pseudometallic film covers suitable for use as medical devices are disclosed together with methods of fabricating the devices. Methods for making the medical devices consist of either providing or forming a scaffold, then depositing a metallic or pseudometallic film cover onto the scaffold in such a manner as to form an integral, substantially monolithic junction between the deposited cover material and the scaffold. | 08-07-2014 |
20140343658 | STENT-GRAFT WITH PROXIMAL AND DISTAL ATTACHMENT, DELIVERY CATHETER AND METHODS OF MAKING SAME - A metallic or pseudometallic covered stent in which the stent component and the cover component are each fabricated of biocompatible metallic or pseudometallic materials, in which the cover and the stent are joined by at least one juncture at each of a proximal and distal end of the stent and the cover. A method of joining the stent and the cover is also disclosed. | 11-20-2014 |
Patent application number | Description | Published |
20120019510 | Multiple source associated particle imaging for simultaneous capture of multiple projections - Disclosed herein are representative embodiments of methods, apparatus, and systems for performing neutron radiography. For example, in one exemplary method, an object is interrogated with a plurality of neutrons. The plurality of neutrons includes a first portion of neutrons generated from a first neutron source and a second portion of neutrons generated from a second neutron source. Further, at least some of the first portion and the second portion are generated during a same time period. In the exemplary method, one or more neutrons from the first portion and one or more neutrons from the second portion are detected, and an image of the object is generated based at least in part on the detected neutrons from the first portion and the detected neutrons from the second portion. | 01-26-2012 |
20130264486 | MULTI-PARTICLE INSPECTION USING ASSOCIATED PARTICLE SOURCES - Disclosed herein are representative embodiments of methods, apparatus, and systems for performing combined neutron and gamma ray radiography. For example, one exemplary system comprises: a neutron source; a set of alpha particle detectors configured to detect alpha particles associated with neutrons generated by the neutron source; neutron detectors positioned to detect at least some of the neutrons generated by the neutron source; a gamma ray source; a set of verification gamma ray detectors configured to detect verification gamma rays associated with gamma rays generated by the gamma ray source; a set of gamma ray detectors configured to detect gamma rays generated by the gamma ray source; and an interrogation region located between the neutron source, the gamma ray source, the neutron detectors, and the gamma ray detectors. | 10-10-2013 |
Patent application number | Description | Published |
20090280022 | TITANIUM, TITANIUM ALLOY AND NiTi FOAMS WITH HIGH DUCTILITY - A method for manufacturing a high ductility Ti-, Ti-alloy or NiTi-foam, meaning a compression strain higher than 10%, includes: preparing a powder suspension of a Ti-, NiTi- or Ti-alloy powder, bringing the said powder suspension into a desired form by gelcasting to form a green artefact. The method also includes a calcination step wherein the green artefact is calcined, and sintering the artifact. The calcination step includes a slow heating step wherein said green artefact is heated at a rate lower or equal to 20° C./hour to a temperature between 400° C. and 600° C. and the Ti-, NiTi- or Ti-alloy powder has a particle size less than 100 μm. A high ductility Ti-, Ti-alloy or NiTi foam, with a compression higher than 10%, with a theoretical density less than 30%, pore size (cell size) between 50 to 1000 μm can be obtained with such a method. | 11-12-2009 |
20110089110 | FILLED POLYMERIC MEMBRANES, USE AND METHOD OF MANUFACTURING - A method of manufacturing a filled polymeric membrane includes a first step of preparing a filler suspension having a solvent for a glassy polymer and nanometre-sized particles. The nanometre-sized particles in the filler suspension are aggregated in aggregates having an average aggregate size in the range between 50 nm and smaller than 200 nm. In a following step, the glassy polymer is added to the filler suspension to obtain a polymer suspension. Next, the glassy polymer is dissolved in the polymer suspension. In a next step, the polymer suspension is cast on a substrate, followed by a step of removing the solvent. A filled polymeric membrane includes aggregates of nanometre-sized filler particles. The membrane is used in pervaporation and nanofiltration. | 04-21-2011 |
20150240331 | Titanium, Titanium Alloy and NiTi Foams with High Ductility - A method for manufacturing a high ductility Ti-, Ti-alloy or NiTi-foam, meaning a compression strain higher than 10%, includes: preparing a powder suspension of a Ti-, NiTi- or Ti-alloy powder, bringing the said powder suspension into a desired form by gelcasting to form a green artefact. The method also includes a calcination step wherein the green artefact is calcined, and sintering the artifact. The calcination step includes a slow heating step wherein said green artefact is heated at a rate lower or equal to 20° C./hour to a temperature between 400° C. and 600° C. and the Ti-, NiTi- or Ti-alloy powder has a particle size less than 100 μm. A high ductility Ti-, Ti-alloy or NiTi foam, with a compression higher than 10%, with a theoretical density less than 30%, pore size (cell size) between 50 to 1000 μm can be obtained with such a method. | 08-27-2015 |