Abstract:
This disclosure pertains to Theremin-based positioning. In general, Theremin technology may operate based on changes in frequency that may be induced in a signal when a certain object (e.g., a user's hand) is proximate to a capacitive electrode. An example system may comprise at least four capacitive electrodes in an arrangement that reacts to proximate objects. A change in frequency sensed for any of the at least four capacitive electrodes may trigger a determination of distance from each of the capacitive electrodes to the object based on the frequency change, and a determination of object positioning data based on the distances. Embodiments may include, for example, the ability to verify the arrangement of the at least four capacitive electrodes, determine object position and/or orientation in a coordinate system referenced to the at least four capacitive electrodes, determine object motion, provide the positioning data to a requesting application, etc.
Abstract:
Techniques related to applying computer vision to decompressed video are discussed. Such techniques may include generating a region of interest in an individual video frame by translating spatial indicators of a first detected computer vision result from a reference video frame to the individual video frame and applying a greater threshold within the region of interest than outside of the region of interest for computer vision evaluation in the individual frame.
Abstract:
Technology for receiving streaming media content is disclosed. A media presentation description (MPD) for the streaming media content can be received at a user equipment (UE). A streaming interval can be selected for the streaming media content. A power consumption level can be calculated for receiving the streaming media content at each of a plurality of media content representations that are described in the MPD. A media content representation can be selected from the plurality of media content representations based on: the power consumption level associated with receiving the streamed media content at the media content representation; and power status information for the UE, using the one or more processors of the UE. The streaming media content can be received at the selected media content representation, at the UE, in accordance with the streaming interval. The streaming media content can be played at the UE.
Abstract:
Techniques related to encoding image content for transmission and display via a remote device with improved latency and efficiency are discussed. Such techniques may include skipping one or more of frame capture, encode, packetization, and transmission for a frame based on a skip indicator. One or more selective updates may be captured for the skipped frame and integrated into an encode of a subsequent non-skipped frame, which may be packetized and transmitted for to the remote device for presentment to a user.
Abstract:
Techniques related to applying computer vision to decompressed video are discussed. Such techniques may include generating a region of interest in an individual video frame by translating spatial indicators of a first detected computer vision result from a reference video frame to the individual video frame and applying a greater threshold within the region of interest than outside of the region of interest for computer vision evaluation in the individual frame.