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 |