Patent application number | Description | Published |
20130210493 | Device Actions Based on Device Power - In one embodiment, one or more computing devices determine, substantially in real time and locally at a mobile device, one or more current dynamic operating conditions of the mobile device related to energy consumption by the mobile device. The computing devices identify a pre-determined device state that corresponds to the current dynamic operating conditions of the mobile device and determine, based at least in part on the pre-determined device state, an action for the mobile device to take, the action being related to energy consumption by the mobile device. | 08-15-2013 |
20130314448 | Individual Control of Backlight Light-Emitting Diodes - In one embodiment, a method includes, by software of a computing device, dynamically identifying a particular region of a display of the computing device. The method also includes, by the software and through a device driver of the computing device, dynamically adjusting one or more particular ones of a plurality of backlighting components of the display associated with the particular region. | 11-28-2013 |
20140025973 | Adjusting Mobile Device State Based on User Intentions and/or Identity - In one embodiment, when a computing system is in a first state, a first set of inputs from one or more first sensors is detected. A first sensor value array is generated, and the first value array is fed as input to a first function generated by a first neural network. One or more first output values are calculated based on the first function, and a determination is made based on these first output values if a first action has occurred. If a first action has occurred, a second sensor value array is generated from a second set of inputs from one or more second sensors. The second sensor value array is fed as input to a second function generated by a second neural network. One or more second output values are calculated based on the second function, and the first state is exited based on these second output values. | 01-23-2014 |
20140082046 | Content Prioritization Based on Packet Size - In one embodiment, a first computing device determines a number of data packets available to transmit from the first computing device to a second computing device. The determination is based on an available bandwidth and a payload capacity, and each of the data packets has a payload with the payload capacity. The first computing device determines a plurality of data items to transmit from the first computing device to the second computing device. The first computing device then ranks the data items and selects, based at least in part on the ranking of the data items and the payload capacities of the data packets, one or more particular ones of the data items to transmit from the first computing device to the second computing device in the data packets. The first computing device writes the particular ones of the data items to the payloads of the data packets. | 03-20-2014 |
20140098121 | Deblurring Images According to a User's Eyesight - In one embodiment, a method includes a computing device accessing a deconvolution function for a point spread function describing at least part of a user's eyesight. The computing device applies the deconvolution function to an image to be displayed on a display to the user. The computing device then displays on the display the image as deconvolved. | 04-10-2014 |
20140101478 | Processor Clocking Policies for Mobile Computing Devices - In one embodiment, a processor of a computing device executes a sequence of instructions that depends on one or more external operations. Software of the computing device determines a clocking policy for the processor during execution of the sequence of instructions. The clocking policy is based at least in part on a pattern of execution involving the sequence of instructions and the external operations, and the clocking policy modifies a clock speed of the processor. The software of the computing device applies the clocking policy to the processor during execution of at least a portion of the sequence of instructions. | 04-10-2014 |
20140123156 | Screen Timeout Duration - In one embodiment, a method includes determining for each of multiple countdowns to an automatic screen timeout of a computing device whether the countdown was too long or too short. The countdown is too short if user interaction with the computing device occurred within a first pre-determined amount of time after the automatic screen timeout. The countdown is too long if user interaction with the computing device turned off a screen of the computing device prior to a second pre-determined amount of time before the automatic screen timeout. The method includes determining an underage of each of one or more of the countdowns that was too short; determining an overage of each of one or more of the countdowns that was too long; and adjusting a countdown length of the automatic screen timeout based at least in part on the underages or overages. | 05-01-2014 |
20150130869 | INDIVIDUAL CONTROL OF BACKLIGHT LIGHT-EMITTING DIODES - In one embodiment, a method includes, by software of a computing device, dynamically identifying a particular region of a display of the computing device. The method also includes, by the software and through a device driver of the computing device, dynamically adjusting one or more particular ones of a plurality of backlighting components of the display associated with the particular region. | 05-14-2015 |