Patent application number | Description | Published |
20110157415 | PHOTOGRAPHIC FLICKER DETECTION AND COMPENSATION - One disclosed embodiment includes detecting flicker in a photographic setting. A plurality of samples are obtained from a light detector circuit of a camera, each of which has a value that is dependent upon intensity of light incident upon the camera. The method further includes processing the samples to identify whether the incident light is varying in intensity at one or more pre-selected frequencies. The processing may include multiplying the samples with one or more periodic signals to generate scalar product outputs, and analyzing the scalar product outputs to ascertain the presence of periodic flicker. | 06-30-2011 |
20110187893 | VIDEO ARTIFACT SUPPRESSION VIA ROLLING FLICKER DETECTION - A method for suppressing banding and rolling flicker in video acquired by a video camera. The method comprises acquiring a plurality of video frames and assessing an amount of rolling flicker in the plurality of video frames. The method further comprises configuring the video camera to quiet banding and rolling flicker responsive to periodic illumination at a first frequency if the amount of rolling flicker is above a threshold, and, configuring the video camera to quiet banding and rolling flicker responsive to periodic illumination at a second frequency if the amount of rolling flicker is below the threshold. | 08-04-2011 |
20140041827 | Heat Transfer Device Management - Techniques involving management of a heat transfer device are described. In one or more implementations, a device includes a housing, a heat-generating device disposed within the housing, and a heat transfer device disposed within the housing. The heat transfer device has a powered active cooling device. The device also includes one or more modules that are configured to adjust operation of the powered active cooling device based on a likely orientation of the heat transfer device. | 02-13-2014 |
20140094973 | SENSED SOUND LEVEL BASED FAN SPEED ADJUSTMENT - Sounds sensed by a microphone of a device include sounds from a cooling fan of the device that varies based on the speed of the cooling fan, and other sounds used by a program of the device such as voice inputs. The sound level of sounds used by the program is determined, and the speed of the fan is adjusted so that a desired cooling level is attained while keeping the fan speed low enough that the noise from the fan does not interfere with the sounds used by the program. | 04-03-2014 |
20150084976 | Display Device Settings - Display device settings are described. In one or more implementations, an apparatus includes a display device and a display settings control module. The display device has a plurality of display settings, at least one of the display settings is adjustable to one of a plurality of different display setting levels. The display setting control module is implemented at least partially in hardware and configured to expose functionality having a plurality of different user selectable levels, the user selectable levels arranged in a plurality of intervals in which, user selectable levels in a corresponding said interval are successively spaced apart from each other at increasing amounts, one to another. | 03-26-2015 |
20150089248 | Accessory Device Power Management - Accessory device power management techniques are described in which a power exchange state for a system including a host computing device, an accessory device, and an adapter is recognized. Power exchange states may be defined according to relative states of charge (RSOC) and connection status for the system components and mapped to power management control actions. Responsive to the recognition of a current power exchange state, corresponding power management control actions may be ascertained and applied to jointly manage power for the system. For instance, the host device may draw supplemental power from a power source associated with an accessory device (e.g., a battery or power adapter) or supply power for use by the accessory device according to different states. Power exchanges may also be managed in accordance with capabilities of the accessory device identified based on authentication of the accessory device. | 03-26-2015 |
20150331463 | Power Management Contracts for Accessory Devices - Power management contracts for accessory devices are described. In one or more implementations, a power management contract is established for a system including a host computing device and an accessory device based at least in part upon power exchange conditions observed for the system. The power management contracts define operating constraints for power exchange between components of the system, including at least a power exchange direction and current limits. The host computing device and accessory devices are each configured to renegotiate the power management contract to dynamically change operating constraints in “real-time.” Additionally, different power management contracts may be associated with identifying data corresponding to different types of accessory devices. | 11-19-2015 |
20150363339 | Reversible Connector for Accessory Devices - Reversible connectors for accessory devices are described. In one or more implementations, a connector cable for an accessory of a host computing device is configured such that a head of the connector cable may be plugged into a corresponding port of the host in either orientation (straight or reverse). The host computing device is configured to sample signals associated with allocated pins of the connector to detect connection of the connector to an accessory port and to ascertain an orientation of the connector. A combination of high and low values of signals conveyed via these allocated pins upon insertion of the connector may be used by a controller of the host to distinguish between different types of devices and to resolve the orientation of the connector cable. A switching mechanism of the host computing device may then be configured to automatically route signals accordingly. | 12-17-2015 |