Patent application number | Description | Published |
20080288802 | METHOD AND APPARATUS FOR OPERATING AN ELECTRONIC DEVICE IN A LOW POWER MODE - An electronic device, such as a hand-held portable computer, is provided with capability to operate an application during a low power mode. During the low power mode, portions of hardware, software, services, and/or other components of the portable computer that are not necessary to the operation of the application is suspended or otherwise deactivated. As each task is performed by the application, the components that are no longer needed for subsequent tasks to be performed by the application are also deactivated and reactivated as needed. The deactivation can be performed in sequence from the highest-level components to the lowest-level components to ensure that components that are needed by other components are not prematurely deactivated. A specific set of events transitions the portable computer out of the low power mode. | 11-20-2008 |
20100174796 | LOW POWER EMAIL FUNCTIONALITY FOR AN ELECTRONIC DEVICE - Low power email capabilities are provided for an electronic device, such as a hand-held portable computer having capability to operate an application during a low power mode. During the low power mode, portions of hardware, software, services, and/or other components of the portable computer that are not necessary for email-related operations, such as polling a server for new email, are suspended or otherwise deactivated. At least a portion of a new email is stored in a memory of a low power display module (LPDM) of the portable computer. The LPDM is provided with its own low-power processing unit, user interface, and other components to allow access to and manipulation of the stored email while other components of the portable computer remain deactivated. | 07-08-2010 |
20100332994 | NETWORK-ACCESSIBLE CONTROL OF ONE OR MORE MEDIA DEVICES - A content management (CM) system is provided to centrally control operation of one or more connected devices by issuing control requests and/or data requests. In some situations the connected device(s) include devices that control presentation of television programming-related content, such as digital video recorder (“DVR”) devices and media center devices, and in other situations may include other types of media devices and/or other electromechanical (“E/M”) devices that may be centrally controlled, such as E/M devices for home automation that may operate independently or in conjunction with the media devices. In some situations, the CM system communicates with the connected devices via a network and using appropriate protocol(s), and may be accessed remotely via a network so as to allow a user to remotely operate the CM system. The CM system may further control searching, identification, selection, and presentation of pieces of media content by the connected device(s). | 12-30-2010 |
20120105306 | TRANSPARENT DISPLAY ASSEMBLY - In embodiments of a transparent display assembly, a display device includes a display panel system that is located between a first display surface and a second display surface, and the display panel system displays an image. The image is viewable through the first display surface and through the second display surface, where the second display surface and the first display surface are viewable from opposite sides of the display device. The display device also includes a multi-mode panel located between the first display surface and the second display surface. The multi-mode panel is operable to permit the image being viewable through the first and second display surfaces, and further operable to prevent the image from being viewable through the first display surface or the second display surface. | 05-03-2012 |
20120105428 | TRANSPARENT DISPLAY CONFIGURATION MODES - In embodiments of transparent display configuration modes, a portable device includes a handheld base movably coupled to a display device that is configurable to open and close over the handheld base. The display device displays an image, and the display device includes a first display surface through which the image is viewable and a second display surface through which the image is viewable. The second display surface and the first display surface are viewable from opposite sides of the display device. The display device also includes a display panel controller that controls display modes of the display device for transparent and non-transparent display. | 05-03-2012 |
20120105487 | TRANSPARENT DISPLAY INTERACTION - In embodiments of transparent display interaction, a portable device includes a handheld base movably coupled to a display device. The display device includes a display panel system that displays an image, and includes display surfaces through which the image is viewable. The image may appear as being projected into an environment behind the display device and viewable through the display surfaces of the display device. The display device is also configurable to open relative the handheld base to a position that the environment is viewable through the display device. | 05-03-2012 |
20120162238 | Display Region Refresh - In embodiments of display region refresh, a display panel has addressable display regions that display at different display refresh rates. Display data is buffered to update the addressable display regions, and subsequent display data is received to further update the addressable display regions. A display controller can determine display update deltas that indicate pending display updates based on a comparison of the display data to the subsequent display data. A first addressable display region can then be refreshed at display refresh rate based on a first display update delta that corresponds to the first addressable display region, and a second addressable display region can be refreshed at a different display refresh rate based on a second display update delta that corresponds to the second addressable display region. | 06-28-2012 |
20120162268 | Transparent Display Active Panels - In embodiments of transparent display active panels, a display device includes a lighting system that directs light from a light source to illuminate a display panel. A multi-mode panel is operable as a transparent panel of the display device, and is further operable for activation to absorb or reflect a portion of the light from the light source. An active diffuser is operable as an additional transparent panel of the display device, and is further operable for activation to diffuse the light that illuminates the display panel. The display device also includes a display controller that controls the activation of the multi-mode panel and the active diffuser. | 06-28-2012 |
20120162269 | Transparent Display Active Backlight - In embodiments of a transparent display active backlight, a light guide is operable as a transparent panel, and a light source generates light that the light guide reflects within the light guide. An electrowetted panel of the active backlight has electrowetted cells that are each operable to direct the reflected light from the light guide to illuminate a display panel of a display device. Each of the electrowetted cells are further operable for transparency when activated, and each of the electrowetted cells can be individually controlled. | 06-28-2012 |
20120162270 | Mixed Sequential Color Display - In embodiments of mixed sequential color display, a light source sequentially generates different colors of light in a timed sequence. A display panel is implemented with multiple sub-pixel combinations, where each pixel of the display panel is a combination of sub-pixels that emit a color based on a color of the light that illuminates a sub-pixel combination. The emitted color from a sub-pixel combination is generated as a product of the color of the light and a combination of sub-pixel colors (to include clear and/or colored sub-pixels). The clear and/or different colored sub-pixels in a sub-pixel combination are a spatial aspect of the emitted color, and the sequentially generated different colors of light are a temporal aspect of the emitted color. The pixel combination and the light source together enhance the luminescence of the emitted color over the chrominescence of the emitted color. | 06-28-2012 |
20120163021 | TRANSPARENT DISPLAY BACKLIGHT ASSEMBLY - In embodiments of a transparent display backlight assembly, a backlight panel is operable as a transparent panel, and a light source generates light that the backlight panel directs from the light source to illuminate a display panel of a display device. Light refraction features refract and scatter the light, where the light refraction features are spaced for approximate transparency of the backlight panel and to illuminate the display panel. An active diffuser can be implemented as an additional transparent panel and operable for activation to diffuse the light from the backlight panel that illuminates the display panel. | 06-28-2012 |
20120178368 | Wireless Communication Techniques - Wireless communication techniques are described. In one or more implementations, techniques are described that involve active power control such that a device may bypass use of a power amplifier to communicate wirelessly. In one or more additional implementations, wireless communication techniques are described in which multiple bands may be leveraged to provide wireless communication. In one or more further implementations, wireless communication techniques are described in which a frame buffer on a receiving device is leveraged by a sending device. Yet further, in one or more implementations wireless communication techniques are described in which a sending device employs codec adaptation. Still yet further, in one or more implementations, wireless communication techniques are described which may be used to change characteristics of a channel used to communicate data. Yet further again, in one or more implementations, a receiving device is configured to adjust a display based on wireless communications received from a plurality of devices, such as to leverage a display by multiple wireless sources. | 07-12-2012 |
20120178380 | Wireless Communication Techniques - Wireless communication techniques are described. In one or more implementations, techniques are described that involve active power control such that a device may bypass use of a power amplifier to communicate wirelessly. In one or more additional implementations, wireless communication techniques are described in which multiple bands may be leveraged to provide wireless communication. In one or more further implementations, wireless communication techniques are described in which a frame buffer on a receiving device is leveraged by a sending device. Yet further, in one or more implementations wireless communication techniques are described in which a sending device employs codec adaptation. Still yet further, in one or more implementations, wireless communication techniques are described which may be used to change characteristics of a channel used to communicate data. Yet further again, in one or more implementations, a receiving device is configured to adjust a display based on wireless communications received from a plurality of devices, such as to leverage a display by multiple wireless sources. | 07-12-2012 |
20120287142 | POWER SAVING FIELD SEQUENTIAL COLOR - In embodiments of power saving field sequential color (FSC), an illumination source illuminates pixels of a displayable image by sequentially generating RGB (red, green, blue) components of a pixel in a timed sequence of field sequential color. The pixels of a displayable image may also include a white component derived from the RGB components. An illumination reduction algorithm is implemented to determine the highest RGB (or RGBW) components from any of the pixels of the displayable image. The highest RGB (or RGBW) components can be determined from any combination of the same or different pixels of the displayable image. The illumination reduction algorithm then divides each of the highest RGB (or RGBW) components by a maximum brightness value to generate respective RGB (or RGBW) component factors. A display controller then processes each pixel of the displayable image for display according to the RGB (or RGBW) component factors. | 11-15-2012 |
20120307423 | FLEXIBLE DISPLAY FLEXURE ASSEMBLY - In embodiments of a flexible display flexure assembly, a flexure assembly includes a structure of pivotable links that couples first and second housing parts of a foldable electronic device. The first housing part of the foldable electronic device includes a flexible display, and the first housing part is integrated with a first section of the flexible display. The second housing part of the foldable electronic device is integrated with a second section of the flexible display. The pivotable links are implemented to collapse relative to each other to form a bend radius of the flexible display and support the flexible display in a closed position of the foldable electronic device. The structure of the pivotable links is also implemented to support the flexible display in an open position of the foldable electronic device. | 12-06-2012 |
20130141597 | CONTROLLING POWER CONSUMPTION IN OBJECT TRACKING PIPELINE - Embodiments related to detecting object information from image data collected by an image sensor are disclosed. In one example embodiment, the object information is detected by receiving a frame of image data from the image sensor and detecting a change in a threshold condition related to an object within the frame. The embodiment further comprises adjusting a setting that changes a power consumption of the image sensor in response to detecting the threshold condition. | 06-06-2013 |
20130170031 | EYEBOX ADJUSTMENT FOR INTERPUPILLARY DISTANCE - In embodiments of eyebox adjustment for interpupillary distance, a first optical lens receives light of an image from a display optic at a projected orientation of the light, and the first optical lens deviates the light of the image by a deviation angle from the projected orientation of the light. A second optical lens receives the light of the image from the first optical lens at the deviation angle, and the second optical lens alters the deviated light of the image back to the projected orientation of the light for viewing the image. Left and right eyeboxes align with respective left and right eyes that view the image, and a distance between the left and right eyeboxes approximately correlates to an interpupillary distance between the left and right eyes. The light of the image can be laterally shifted to increase or decrease the distance between the left and right eyeboxes. | 07-04-2013 |
20130207964 | IMAGING STRUCTURE WITH EMBEDDED LIGHT SOURCES - In embodiments of an imaging structure with embedded light sources, an imaging structure includes a silicon backplane with a driver pad array. The embedded light sources are formed on the driver pad array in an emitter material layer, and the embedded light sources can be individually controlled at the driver pad array to generate and emit light. A conductive material layer over the embedded light sources forms a p-n junction between the emitter material layer and the conductive material layer. Micro lens optics can be positioned over the conductive material layer to direct the light that is emitted from the embedded light sources. Further, the micro lens optics may be implemented as parabolic optics to concentrate the light that is emitted from the embedded light sources. | 08-15-2013 |
20130208003 | IMAGING STRUCTURE EMITTER CONFIGURATIONS - In embodiments of imaging structure emitter configurations, an imaging structure includes a silicon backplane with a driver pad array. The embedded light sources are formed on the driver pad array in an emitter material layer, and the embedded light sources can be individually controlled at the driver pad array to generate and emit light. The embedded light sources are configured in multiple rows for scanning by an imaging unit to generate a scanned image for display. | 08-15-2013 |
20130208014 | DISPLAY WITH BLOCKING IMAGE GENERATION - A blocking image generating system including a head-mounted display device having an opacity layer and related methods are disclosed. A method may include receiving a virtual image to be presented by display optics in the head-mounted display device. Lighting information and an eye-position parameter may be received from an optical sensor system in the head-mounted display device. A blocking image may be generated in the opacity layer of the head-mounted display device based on the lighting information and the virtual image. The location of the blocking image in the opacity layer may be adjusted based on the eye-position parameter. | 08-15-2013 |
20130208362 | LASER ILLUMINATION SCANNING - In embodiments of laser illumination scanning, an imaging unit includes a linear array of spatial light modulators that direct light in a direction perpendicular to an imaging scan direction. The lasers each emit the light through a diffractive optic that uniformly illuminates the spatial light modulators, and a scanning mirror then scans the spatial light modulators to generate a two-dimensional image for display. The lasers can include red, green, and blue lasers for RGB illumination of the spatial light modulators, which can be implemented as reflective liquid crystal on silicon (LCOS), transmissive LCOS, or as micro-electro-mechanical systems (MEMS) mirrors. | 08-15-2013 |
20130208482 | IMAGING STRUCTURE COLOR CONVERSION - In embodiments of imaging structure color conversion, an imaging structure includes a silicon backplane with a driver pad array. An embedded light source is formed on the driver pad array in an emitter material layer, and the embedded light source emits light in a first color. A conductive material layer over the embedded light source forms a p-n junction between the emitter material layer and the conductive material layer. A color conversion layer can then convert a portion of the first color to at least a second color. Further, micro lens optics can be implemented to direct the light that is emitted through the color conversion layer. | 08-15-2013 |
20130242056 | IMAGING STRUCTURE EMITTER CALIBRATION - In embodiments of imaging structure emitter calibration, an imaging unit includes an emitter structure that direct emits light, and optics direct the light along a light path in the imaging unit to illuminate a projection surface. A reflective panel reflects a portion of the light to illuminate a light sensor. An imaging application receives the sensor data from the light sensor, where the sensor data corresponds to emitted light output from the emitter structure. The imaging application can then initiate a calibration input to the emitter structure to adjust the emitted light output from the emitter structure. | 09-19-2013 |
20130249895 | LIGHT GUIDE DISPLAY AND FIELD OF VIEW - Light guide display and field of view techniques are described. In one or more implementations, an apparatus includes one or more modules implemented at least partially in hardware to configure a user interface and a display device communicatively coupled to the one or more modules to output the user interface to be viewable by a user within a range of distances from the display device such that closer distances within the range permit the user to have an increased field of view in comparison with distances within the range that are further away from the user. | 09-26-2013 |
20130257848 | Augmented Reality Light Guide Display - Augmented reality light guide display techniques are described. In one or more implementations, an apparatus includes a housing configured in a hand-held form factor, one or more sensors configured to detect a position and orientation of the housing in three dimensions in a physical environment of the housing, a light guide that is at least partially transparent and supported by the housing, a light engine that is optically coupled to the light guide, and one or more modules disposed within the housing and implemented at least partially in hardware. The one or more modules are configured to calculate a position and orientation of an augmentation and cause the light engine to output the augmentation for display using the light guide such that the augmentation is viewable concurrently with at least a portion of the physical environment through the light guide. | 10-03-2013 |
20130258701 | Mobile Device Light Guide Display - Light guide techniques are described. In one or more implementations, an apparatus includes a housing, a light guide supported by the housing, a light engine disposed within the housing and optically coupled to the light guide, and one or more modules disposed within the housing and implemented at least partially in hardware. The one or more modules are configured to cause the light engine to output a user interface for display using the light guide along an image plane focused at infinity. | 10-03-2013 |
20130285885 | HEAD-MOUNTED LIGHT-FIELD DISPLAY - A head-mounted light-field display system (HMD) includes two light-field projectors (LFPs), one per eye, each comprising a solid-state LED emitter array (SLEA) operatively coupled to a microlens array (MLA). The SLEA and the MLA are positioned so that light emitted from an LED of the SLEA reaches the eye through at most one microlens from the MLA. The HMD's LFP comprises a moveable solid-state LED emitter array coupled to a microlens array for close placement in front of an eye—without the need for any additional relay or coupling optics—wherein the LED emitter array physically moves with respect to the microlens array to mechanically multiplex the LED emitters to achieve resolution via mechanically multiplexing. | 10-31-2013 |
20130286053 | DIRECT VIEW AUGMENTED REALITY EYEGLASS-TYPE DISPLAY - A low-power, high-resolution, see-through (i.e., “transparent”) augmented reality (AR) display without projectors with relay optics separate from the display surface but instead feature a small size, low power consumption, and/or high quality images (high contrast ratio). The AR display comprises sparse integrated light-emitting diode (iLED) array configurations, transparent drive solutions, and polarizing optics or time multiplexed lenses to combine virtual iLED projection images with a user's real world view. The AR display may also feature full eye-tracking support in order to selectively utilize only the portions of the display(s) that will produce only projection light that will enter the user's eye(s) (based on the position of the user's eyes at any given moment of time) in order to achieve power conservation. | 10-31-2013 |
20130293689 | Wireless Communication Techniques - Wireless communication techniques are described. In one or more implementations, techniques are described that involve active power control such that a device may bypass use of a power amplifier to communicate wirelessly. In one or more additional implementations, wireless communication techniques are described in which multiple bands may be leveraged to provide wireless communication. In one or more further implementations, wireless communication techniques are described in which a frame buffer on a receiving device is leveraged by a sending device. Yet further, in one or more implementations wireless communication techniques are described in which a sending device employs codec adaptation. Still yet further, in one or more implementations, wireless communication techniques are described which may be used to change characteristics of a channel used to communicate data. Yet further again, in one or more implementations, a receiving device is configured to adjust a display based on wireless communications received from a plurality of devices, such as to leverage a display by multiple wireless sources. | 11-07-2013 |
20130335302 | SELECTIVE ILLUMINATION - In embodiments of selective illumination, an illumination system includes light sources implemented for selective illumination of a target within a field of view of an imaging system. The illumination system also includes optics that can be positioned to direct light that is generated by a subset of the light sources to illuminate a region within the field of view. An imaging application can activate the subset of the light sources and position the optics to illuminate the region within the field of view that includes the target of the selective illumination. | 12-19-2013 |
20130335404 | DEPTH OF FIELD CONTROL FOR SEE-THRU DISPLAY - One embodiment provides a method for controlling a virtual depth of field perceived by a wearer of a see-thru display device. The method includes estimating the ocular depth of field of the wearer and projecting virtual imagery with a specified amount of blur. The amount of blur is determined as a function of the ocular depth of field. Another embodiment provides a method for controlling an ocular depth of field of a wearer of a see-thru display device. This method includes computing a target value for the depth of field and increasing the pixel brightness of the virtual imagery presented to the wearer. The increase in pixel brightness contracts the wearer's pupils and thereby deepens the depth of field to the target value. | 12-19-2013 |
20130335442 | LOCAL RENDERING OF TEXT IN IMAGE - Various embodiments are disclosed that relate to enhancing the display of images comprising text on various computing device displays. For example, one disclosed embodiment provides, on a computing device, a method of displaying an image, the method including receiving from a remote computing device image data representing a non-text portion of the image, receiving from the remote computing device unrendered text data representing a text portion of the image, rendering the unrendered text data based upon local contextual rendering information to form locally rendered text data, compositing the locally rendered text data and the image data to form a composited image, and providing the composited image to a display. | 12-19-2013 |
20130335546 | SELECTIVE IMAGING - In embodiments of selective imaging, an imaging system includes an imaging sensor implemented to capture an image of a target within a field of view of the imaging system. The imaging sensor is divided into zones of pixel arrays. The imaging system also includes optics that can be positioned to direct light of the image at a zone of the imaging sensor. An imaging application can position the optics to direct the light at the zone of the imaging sensor and activate the zone of the imaging sensor to capture the image of the target. | 12-19-2013 |
20130335671 | ACTIVE REFLECTIVE SURFACES - In embodiments of active reflective surfaces, an imaging structure includes a circuit control layer that controls pixel activation to emit light. A reflective layer of the imaging structure reflects input light from an illumination source. An active color conversion material that is formed on the reflective layer converts the input light to the emitted light. The active color conversion material can be implemented as a phosphorus material or quantum dot material that converts the input light to the emitted light, and in embodiments, the active color conversion material is laminated directly on the reflective layer. | 12-19-2013 |
20130342391 | HYBRID DEVICE LOCATION DETERMINATION SYSTEM - Various different techniques are used to determine a location of a device, including 3-dimensional (3D) mapping techniques as well as one or more of Global Navigation Satellite System (GNSS) techniques, wireless signal detection techniques, and inertial sensor techniques. The locations determined by these various techniques are combined to determine the location of the device and/or user of the device. In addition to the location of the device, an orientation or direction of view of the device and/or user of the device can optionally be determined as well. | 12-26-2013 |
20140049559 | MIXED REALITY HOLOGRAPHIC OBJECT DEVELOPMENT - Systems and related methods for presenting a holographic object that self-adapts to a mixed reality environment are provided. In one example, a holographic object presentation program captures physical environment data from a destination physical environment and creates a model of the environment including physical objects having associated properties. The program identifies a holographic object for display on a display of a display device, the holographic object including one or more rules linking a detected environmental condition and/or properties of the physical objects with a display mode of the holographic object. The program applies the one or more rules to select the display mode for the holographic object based on the detected environmental condition and/or the properties of the physical objects. | 02-20-2014 |
20140104685 | EYEBOX ADJUSTMENT FOR INTERPUPILLARY DISTANCE - In embodiments of eyebox adjustment for interpupillary distance, a first optical lens receives light of an image at a projected orientation of the light, and deviates the light by a deviation angle from the projected orientation of the light. A second optical lens receives the deviated light of the image from the first optical lens at the deviation angle, and alters the deviated light back to the projected orientation of the light for viewing the image. Left and right eyeboxes align with respective left and right eyes that view the image, and a distance between the left and right eyeboxes approximately correlates to an interpupillary distance between the left and right eyes. The light of the image can be laterally shifted to increase or decrease the distance between the left and right eyeboxes. | 04-17-2014 |
20140145914 | HEAD-MOUNTED DISPLAY RESOURCE MANAGEMENT - A system and related methods for a resource management in a head-mounted display device are provided. In one example, the head-mounted display device includes a plurality of sensors and a display system for presenting holographic objects. A resource management program is configured to operate a selected sensor in a default power mode to achieve a selected fidelity. The program receives user-related information from one or more of the sensors, and determines whether target information is detected. Where target information is detected, the program adjusts the selected sensor to operate in a reduced power mode that uses less power than the default power mode. | 05-29-2014 |
20140152676 | LOW LATENCY IMAGE DISPLAY ON MULTI-DISPLAY DEVICE - Embodiments are disclosed that relate to displaying images on multi-display devices with low latency. For example, one disclosed embodiment provides, on a display device comprising a first display and a second display, a method comprising receiving, processing a first image, and displaying the first image via the first display and not displaying the first image via the second display. The method further comprises receiving a second image, processing the second image while displaying the first image, and displaying the second image via the second display and not displaying the second image via the first display. | 06-05-2014 |
20140168369 | SINGLE FREQUENCY TIME OF FLIGHT DE-ALIASING - A system and method are disclosed for determining a depth map using TOF with low power consumption. In order to disambiguate, or de-alias, the returned distance(s) for a given phase shift, the system may emit n different frequencies of light over n successive image frames. After n frames of data are collected, the distances may be correlated by a variety of methodologies to determine a single distance to the object as measured over n image frames. As one frequency may be emitted per image frame, the depth map may be developed while consuming low power. | 06-19-2014 |
20140184475 | DISPLAY UPDATE TIME REDUCTION FOR A NEAR-EYE DISPLAY - Technology is described for reducing display update time for a near-eye display (NED) device. A point of focus in the NED field of view is identified, often based on natural user input data. A communication module of a computer system communicatively coupled to the NED device transmits lossless priority data, an example of which is user focal region image data, using one or more communication techniques for satisfying lossless transmission criteria. Allowed loss image data is identified based at least in part on its distance vector from a point of focus in the display field of view. An example of allowed loss image data is image data to be displayed outside the user focal region. The allowed loss image data is transmitted and extracted from received image data allowing for lossy transmission. | 07-03-2014 |
20140286047 | Transparent Display Backlight Assembly - In embodiments of a transparent display backlight assembly, a backlight panel is operable as a transparent panel, and a light source generates light that the backlight panel directs from the light source to illuminate a display panel of a display device. Light refraction features refract and scatter the light, where the light refraction features are spaced for approximate transparency of the backlight panel and to illuminate the display panel. An active diffuser can be implemented as an additional transparent panel and operable for activation to diffuse the light from the backlight panel that illuminates the display panel. | 09-25-2014 |
20140313902 | OPTIMIZATION OF OVER-THE-TOP (OTT) SERVICES ON CARRIER NETWORKS - Methods and apparatus for executing a client-based, over-the-top (OTT) application, the client-based OTT application for maintaining communications with a second communication device, comprising, in one embodiment, a first transceiver for transmitting and receiving user traffic, a memory for storing processor-executable instructions, and a processor, coupled to the transceiver and the memory, for executing the processor-executable instructions that cause the wireless communication device to establish a first control plane connection, establish a second control plane connection, establish a first data plane for transporting the user traffic, the first data plane connection relating to the first control plane connection, establish a second data plane connection for transporting the user traffic if at least one predetermined event has occurred, the second data plane connection related to the second control plane connection, and to transmit and receive the user traffic over the second data plane connection via the first transceiver. | 10-23-2014 |
20140333591 | SALIENT CONTROL ELEMENT AND MOBILE DEVICE WITH SALIENT CONTROL ELEMENT - A salient control element for a mobile device comprises at least one button actuatable by a user to execute a mobile device function. The button has at least a first active state in which the button is extended or retracted relative to a surrounding surface and a second inactive state in which the button is substantially flush with the surrounding surface. The button is reconfigurable between the active state and the inactive state based upon a triggering event. The triggering event comprises at least one of receiving signals indicating a position, motion or orientation of the device, signals indicating a mode of operation or time, signals indicating that a predetermined application or service is active, signals indicating a current wireless communication, or signals indicating the mobile device is in a predetermined venue. | 11-13-2014 |
20140340609 | METHODS FOR PRODUCING A GLASS-BASED NON PLANAR DIGITAL DISPLAY - A method of producing a curved display for an electronic device comprises providing a substrate comprising a first curvable section comprising at least one flat glass member and a second longitudinally adjacent planar section, placing the curvable section in contact with a member having a curved surface, urging the curvable section towards the curved surface of the member and maintaining the curvable section in a curved configuration to thereby form the curved display having the adjacent planar section. A curved display and a mobile device having a curved display are also disclosed. | 11-20-2014 |
20140347232 | ELECTRONIC DEVICE COMPONENTS AS ANTENNAS - Antennas, antenna systems, and electronic devices containing antennas are described herein. Non-antenna components of electronic devices can be used as an antenna, as a portion of an antenna, or as part of a feed path from a transceiver output to an antenna. An output of a transceiver can be coupled to a conductive portion of a non-antenna component through a feed point. Conductive portions of the non-antenna component can serve as an antenna for the transceiver. An additional conductor can also be coupled to the output of the transceiver. The additional conductor, the conductive portions of the non-antenna component, or the combination of the additional conductor and the conductive portions of the non-antenna component can act as an antenna for the transceiver. | 11-27-2014 |
20140347233 | INTEGRATED ANTENNA FOR WIRELESS COMMUNICATIONS AND WIRELESS CHARGING - Antennas, antenna systems, and components used in antenna systems are provided herein. In various examples, an integrated antenna for receiving signals for a plurality of functional modules in a computing device may include a first plurality of antenna elements for receiving signals at wireless communication frequencies and a second plurality of antenna elements for receiving signals at wireless charging frequencies. The first and the second pluralities of antenna elements may have at least one common antenna element, which may be coupled to one or more of the second plurality of antenna elements using at least one low-pass filter. The at least one common antenna element is de-coupled from one or more of the plurality of functional modules operating at the wireless communication frequencies using at least one high-pass filter. | 11-27-2014 |
20140369275 | SERVICE PROVISIONING THROUGH A SMART PERSONAL GATEWAY DEVICE - Embodiments include a smart personal gateway device (SPGD) that augments the capabilities of smart personal devices (SPDs) connected in a personal area network (PAN). The SPGD implements services for the SPDs using computing resources of the SPGD. In some embodiments, the SPGD provides carrier-grade voice services to SPDs lacking hardware to support such services (e.g., SPDs supporting Wi-Fi only). | 12-18-2014 |
20140372551 | PROVIDING STORAGE AND SECURITY SERVICES WITH A SMART PERSONAL GATEWAY DEVICE - Embodiments provide storage, security, and other services to smart personal devices (SPDs) in a personal area network (PAN) via a smart personal gateway device (SPGD). The SPGD caches and shares data among SPDs having support for heterogeneous communication modalities. The SPGD acts as an offline cache or other common storage location for the SPDs in the PAN. | 12-18-2014 |
20150054943 | AUDIO FOCUSING VIA MULTIPLE MICROPHONES - Various technologies are applied to focus audio received from a plurality of microphones of a mobile device. A camera can be used to portray a scene, and a selection within the scene can focus audio to a desired audio focus region. Techniques can account for movement of the mobile device or an object being tracked. Pre-computed audio filters can be used to customize the audio focus process to account for a particular mobile device geometry. | 02-26-2015 |