A video processing method includes determining a first time point corresponding to a frame header of a video frame, determining a time period for processing at least a portion of the video frame, determining a second time point based on the first time point and the time period, adjusting a third time point corresponding to a frame header of a physical layer frame to synchronize the third time point with the second time point, and starting to transmit the video frame at the second time point.

A video processing method includes determining a first time point corresponding to a frame header of a video frame, determining a time period for processing at least a portion of the video frame, determining a second time point based on the first time point and the time period, adjusting a third time point corresponding to a frame header of a physical layer frame to synchronize the third time point with the second time point, and starting to transmit the video frame at the second time point.

An electronic device is provided. The electronic device includes a first image sensor, a second image sensor electrically connected to the first image sensor, and a processor operatively connected to the first image sensor and the second image sensor. The processor may be configured to generate first image data using the first image sensor and generate second image data using the second image sensor based on a synchronizing signal, transmit the second image data generated by the second image sensor to the first image sensor, and control the first image sensor to generate and output image data by processing the first image data and the second image data based on the synchronizing signal.

An electronic device is provided. The electronic device includes a first image sensor, a second image sensor electrically connected to the first image sensor, and a processor operatively connected to the first image sensor and the second image sensor. The processor may be configured to generate first image data using the first image sensor and generate second image data using the second image sensor based on a synchronizing signal, transmit the second image data generated by the second image sensor to the first image sensor, and control the first image sensor to generate and output image data by processing the first image data and the second image data based on the synchronizing signal.

A method implemented on a computing device including at least one processor and a storage for synchronizing video transmission with physical layer. The method includes determining a first time point corresponding to a frame header of a video frame, determining a second time point corresponding to a frame header of a physical layer frame based at least in part on the first time point, and starting transmitting the video frame at the second time point.

A method implemented on a computing device including at least one processor and a storage for synchronizing video transmission with physical layer. The method includes determining a first time point corresponding to a frame header of a video frame, determining a second time point corresponding to a frame header of a physical layer frame based at least in part on the first time point, and starting transmitting the video frame at the second time point.

A video interface conversion apparatus comprises a video interface circuit, a video clock adjustment information generation circuit and a video clock recovery circuit. The video interface circuit generates at least one original synchronization signal according to a control signal, and fetches video data from a data signal according to a video synchronization signal. The video clock adjustment information generation circuit generates video clock adjustment information and the video synchronization signal according to the original video synchronization signal and a video clock. The video clock recovery circuit receives an original clock and the video clock adjustment information, and recovers the video clock by adjusting the original clock according to the video clock adjustment information.

A video interface conversion apparatus comprises a video interface circuit, a video clock adjustment information generation circuit and a video clock recovery circuit. The video interface circuit generates at least one original synchronization signal according to a control signal, and fetches video data from a data signal according to a video synchronization signal. The video clock adjustment information generation circuit generates video clock adjustment information and the video synchronization signal according to the original video synchronization signal and a video clock. The video clock recovery circuit receives an original clock and the video clock adjustment information, and recovers the video clock by adjusting the original clock according to the video clock adjustment information.

An image capture device may capture video frames while experiencing motion. The video frames may be stored in a visual track, and rotational positions of the image capture device may be stored in a rotational position track. The visual track and the rotational position track may not be temporally aligned. A looping stabilized view of the view frames and a synchronization adjustment option may be presented on a display. The synchronization adjustment option may enable user modification of timing of the rotational positions stored within the rotational position track. Timing modification of the rotational positions may cause changes in the looping stabilized view, which may be used as feedback on whether the synchronization between the visual track and the rotational position track is being improved or not by the timing modification of the rotational positions.

An image capture device may capture video frames while experiencing motion. The video frames may be stored in a visual track, and rotational positions of the image capture device may be stored in a rotational position track. The visual track and the rotational position track may not be temporally aligned. A looping stabilized view of the view frames and a synchronization adjustment option may be presented on a display. The synchronization adjustment option may enable user modification of timing of the rotational positions stored within the rotational position track. Timing modification of the rotational positions may cause changes in the looping stabilized view, which may be used as feedback on whether the synchronization between the visual track and the rotational position track is being improved or not by the timing modification of the rotational positions.