Patent application number | Description | Published |
20100245234 | Portable Electronic Device with Low Dexterity Requirement Input Means - A handheld-size electronic device is provided with a display screen, or front housing or bezel surrounding the display screen, that is moveably mounted to the remainder of the electronic device. Detectors are provided for detecting movement of the display screen, or surrounding front housing part, and a microprocessor coupled to the detectors controls the electronic device based on that movement. This mode of user input allows users to control the electronic device with a quick hand motion and without requiring the level of focus that is typically required to operate the small buttons of a wireless device. This mode of user input can be use for various purposes including, for example, controlling digital music playback. | 09-30-2010 |
20110151851 | Methods and Communication Devices Configurable for Silence Mode and Exceptions to the Silence Mode - The disclosed are methods and communication devices include a user interface configured receive input to place the device in silence mode and to make exceptions to the silence mode and an indicator to provide an announcement that there is data stored related to incoming communications so that even when the device in silence mode, the user may not miss important notifications. The exceptions to the silence mode include at least one of receipt of an identified communication signal, an identified application indication or an identified event notification. The disclosed methods and communication device may further include a sensor to that the processor will provide an indication whether there is data stored related to detect a user action with respect to the device so incoming communications since a silence mode commenced. The disclosed methods and devices may provide a user choice in how to control incoming communications of the mobile device. | 06-23-2011 |
20110157728 | Electronic Device Including a Stepped Lens - Disclosed is an electronic device including a lens having a stepped edge and a viewing area and more particularly, an electronic device having a display in which the viewing area of the lens is stacked with the active area wiring of a display panel and the stepped edge of the lens is stacked with the connectors on the periphery of the display panel. A housing portion is stacked with the stepped edge of the lens and the connectors on the periphery of the display panel. In this way, a maker of electronic devices can make use of the space occupied by the connectors of the display panel so that the active area of the display panel may occupy more of the total area of the surface of the device. | 06-30-2011 |
20110205695 | Hinge Mechanism in Electronic Handset - A portable electronic device includes first and second housing portions pivotal about corresponding pivot axes. A biasing member urges a first cam surface of the first housing portion into engagement with a second cam surface of the second housing portion. The biasing member also urges indexing members of the first and second housing portions into engagement to maintain synchronization of the housing portions during rotation, wherein the first and second housing portions are configured in a fixed angular orientation when the first cam surface is engaged with the second cam surface. | 08-25-2011 |
Patent application number | Description | Published |
20150268730 | Gesture Controlled Adaptive Projected Information Handling System Input and Output Devices - Projected input and output devices adapt to a desktop environment by sensing objects at the desktop environment and altering projected light in response to the sensed objects. For instance, projection of input and output devices is altered to limit illumination against and end user's hands or other objects disposed at a projection surface. End user hand positions and motions are detected to provide gesture support for adapting a projection work space, and configurations of projected devices are stored so that an end user can rapidly recreate a projected desktop. A projector scan adjusts to limit traces across inactive portions of the display surface and to increase traces at predetermined areas, such as video windows. | 09-24-2015 |
20150268731 | Interactive Projected Information Handling System Support Input and Output Devices - Projected input and output devices adapt to a desktop environment by sensing objects at the desktop environment and altering projected light in response to the sensed objects. For instance, projection of input and output devices is altered to limit illumination against and end user's hands or other objects disposed at a projection surface. End user hand positions and motions are detected to provide gesture support for adapting a projection work space, and configurations of projected devices are stored so that an end user can rapidly recreate a projected desktop. A projector scan adjusts to limit traces across inactive portions of the display surface and to increase traces at predetermined areas, such as video windows. | 09-24-2015 |
20150268732 | Adaptive Projected Information Handling System Output Devices - Projected input and output devices adapt to a desktop environment by sensing objects at the desktop environment and altering projected light in response to the sensed objects. For instance, projection of input and output devices is altered to limit illumination against and end user's hands or other objects disposed at a projection surface. End user hand positions and motions are detected to provide gesture support for adapting a projection work space, and configurations of projected devices are stored so that an end user can rapidly recreate a projected desktop. A projector scan adjusts to limit traces across inactive portions of the display surface and to increase traces at predetermined areas, such as video windows. | 09-24-2015 |
20150268739 | Projected Information Handling System Input Environment with Object Initiated Responses - Projected input and output devices adapt o a desktop environment by sensing objects at the desktop environment and altering projected light in response to the sensed objects. For instance, projection of input and output devices is altered to limit illumination against and end user's hands or other objects disposed at a projection surface. End user hand positions and motions are detected to provide gesture support for adapting a projection work space, and configurations of projected devices are stored so that an end user can rapidly recreate a projected desktop. A projector scan adjusts to limit traces across inactive portions of the display surface and to increase traces at predetermined areas, such as video windows. | 09-24-2015 |
20150268773 | Projected Information Handling System Input Interface with Dynamic Adjustment - Projected input and output devices adapt to a desktop environment by sensing objects at the desktop environment and altering projected light in response to the sensed objects. For instance, projection of input and output devices is altered to limit illumination against and end user's hands or other objects disposed at a projection surface. End user hand positions and motions are detected to provide gesture support for adapting a projection work space, and configurations of projected devices are stored so that an end user can rapidly recreate a projected desktop. A projector scan adjusts to limit traces across inactive portions of the display surface and to increase traces at predetermined areas, such as video windows. | 09-24-2015 |
20150268812 | Context Adaptable Projected Information Handling System Input Environment - Projected input and output devices adapt to a desktop environment by sensing objects at the desktop environment and altering projected light in response to the sensed objects. For instance, projection of input and output devices is altered to limit illumination against and end user's hands or other objects disposed at a projection surface. End user hand positions and motions are detected to provide gesture support for adapting a projection work space, and configurations of projected devices are stored so that an end user can rapidly recreate a projected desktop. A projector scan adjusts to limit traces across inactive portions of the display surface and to increase traces at predetermined areas, such as video windows. | 09-24-2015 |