A device and method allows a user to create a mark corresponding to a moment in time of a captured recording to provide later viewing of a portion of the recording corresponding to the moments in time.

Control apparatus to control operation of a data buffer to which data items are written according to a write pointer which advances in position in response to an input data item rate and from which data items are read according to a read pointer which advances in position in response to an output data item rate, comprises: a detector configured to detect an occupancy difference between a current buffer occupancy and a target buffer occupancy, in which the current buffer occupancy represents a difference between the read and write pointers; an output data item interpolator configured to interpolate a data item at an interpolated data buffer location displaced by a read offset displacement from a data buffer location pointed to by the read pointer; and output control circuitry configured, in response to a current occupancy difference exceeding a threshold occupancy difference, to change the read pointer from an initial read pointer to a target read pointer by a change amount so as to reduce the occupancy difference, the output control circuitry being configured to progressively vary the read offset displacement so as to define an interpolated data buffer location which progresses over the output of a transitional group of data items towards the location pointed to by the target read pointer; the output control circuitry being further configured, when the occupancy difference is less than the threshold occupancy difference and the interpolated data buffer location is aligned with the target read pointer, to inhibit operation of the output data item interpolator and to control output of an output data item from the data buffer location pointed to by the read pointer.

Intelligent Video Analytics system may be implemented using a distributed computing architecture with edge and remote devices, where the edge devices analyze the video stream and transmit detection data corresponding to time segments to the remote device. The detection data may identify an object (e.g., vehicle, pedestrian, etc.) in the video stream. The remote device analyzes the detection data received from one or more edge devices and generates extraction triggers that are transmitted to the one or more edge devices. When an edge device receives an extraction trigger, the edge device extracts a clip from the video stream and stores the clip to persistent storage. The remote device may then retrieve the clip. The edge devices may perform simple identification operations while the remote device implements complex algorithms to detect events, benefitting from a larger context than is available to the individual edge devices.

A method of providing an event-initiated video sequence, comprises a pre-event video sequence and a post-event video sequence. The pre-event image frames are stored in a non-processed format until such time that an event is taking place. By postponing the image processing of the pre-event video sequence, power savings are accomplished.

Control apparatus to control operation of a data buffer to which data items are written according to a write pointer which advances in position in response to an input data item rate and from which data items are read according to a read pointer which advances in position in response to an output data item rate, comprises: a detector configured to detect an occupancy difference between a current buffer occupancy and a target buffer occupancy, in which the current buffer occupancy represents a difference between the read and write pointers; an output data item interpolator configured to interpolate a data item at an interpolated data buffer location displaced by a read offset displacement from a data buffer location pointed to by the read pointer; and output control circuitry configured, in response to a current occupancy difference exceeding a threshold occupancy difference, to change the read pointer from an initial read pointer to a target read pointer by a change amount so as to reduce the occupancy difference, the output control circuitry being configured to progressively vary the read offset displacement so as to define an interpolated data buffer location which progresses over the output of a transitional group of data items towards the location pointed to by the target read pointer; the output control circuitry being further configured, when the occupancy difference is less than the threshold occupancy difference and the interpolated data buffer location is aligned with the target read pointer, to inhibit operation of the output data item interpolator and to control output of an output data item from the data buffer location pointed to by the read pointer.

Disclosed herein are system, apparatus, article of manufacture, method and/or computer program product embodiments, and/or combinations and sub-combinations thereof, for synchronizing playback of audio and video, wherein the audio is transmitted to wireless speakers over a wireless medium. Some embodiments operate by receiving content for playback from a source, wherein the content comprises the audio and the video; determining that synchronization of playback of the audio and video will not be acceptable, by analyzing the wireless medium to determine a probable transmission time it will take for the audio to be transmitted to the wireless speakers over the wireless medium; determining that a video buffer is not large enough to buffer the video long enough to compensate for the probable transmission time, based on at least a size of the video buffer and a resolution of the video; and requesting a lower resolution encoding of the video, wherein the requested video is of a resolution that can be buffered in the video buffer sufficiently long to compensate for the probable transmission time of the audio to the wireless speakers. Also, a lower quality encoding of the audio can be requested. Such lower quality audio will take less time to transmit to the wireless speakers so less buffering of the video will be needed to compensate for transmission delays of the audio.

A system and method allows a user to enter a command capture audio, video, and/or still pictures that commence at a moment in time earlier than entering the command.

An audio processing system has a buffer, a first digital signal processing module that uses a first lookahead, a second digital signal processing module that uses a second, greater lookahead, and a cross-fader. The cross-fader fades between the output of the first digital signal processing module to the output of the second digital signal processing module, based on lookahead depth of data of the audio signal in the buffer. Other aspects are also described and claimed.

An audio processing system has a buffer, a first digital signal processing module that uses a first lookahead, a second digital signal processing module that uses a second, greater lookahead, and a cross-fader. The cross-fader fades between the output of the first digital signal processing module to the output of the second digital signal processing module, based on lookahead depth of data of the audio signal in the buffer. Other aspects are also described and claimed.

Disclosed herein are system, apparatus, article of manufacture, method and/or computer program product embodiments, and/or combinations and sub-combinations thereof, for synchronizing playback of audio and video, wherein the audio is transmitted to wireless speakers over a wireless medium. Some embodiments operate by receiving content for playback from a source, wherein the content comprises the audio and the video; determining that synchronization of playback of the audio and video will not be acceptable, by analyzing the wireless medium to determine a probable transmission time it will take for the audio to be transmitted to the wireless speakers over the wireless medium; determining that a video buffer is not large enough to buffer the video long enough to compensate for the probable transmission time, based on at least a size of the video buffer and a resolution of the video; and requesting a lower resolution encoding of the video, wherein the requested video is of a resolution that can be buffered in the video buffer sufficiently long to compensate for the probable transmission time of the audio to the wireless speakers. Also, a lower quality encoding of the audio can be requested. Such lower quality audio will take less time to transmit to the wireless speakers so less buffering of the video will be needed to compensate for transmission delays of the audio.