The disclosure discloses a data processing method and device for a Light emitting diode (LED) Television (TV), and an LED TV, wherein the data processing device includes: a signal processing chip configured to perform mode conversion on a received TV signal so as to obtain a first video signal of a preset mode; and a video processing chip connected to the signal processing chip and configured to perform clock synchronization processing on the first video signal so as to obtain a second video signal and output the second video signal to an LED display. By means of the disclosure, the problem in the prior art that an LED TV can only display a TV signal of a single mode is solved, thereby achieving the effect that the LED TV can display videos of various modes and various formats.

Aspects of the disclosure provide a method for collecting sounds associated with surveillance images. The method includes identifying a sound-making surveilled object in the surveillance images, the surveillance images being captured by a camera of a monitoring device; determining whether a sound acquiring device meets a preset condition corresponding to that a signal strength of the sounds collected by the sound acquiring device from the identified surveilled object is greater than a signal strength of the sounds collected by the monitoring device from the identified surveilled object; and, when determining that the sound acquiring device meets the preset condition, controlling the sound acquiring device to collect the sounds from the identified surveilled object.

A three-dimensional object detection device has an image capturing unit, an object detection unit, a nighttime assessment unit, a luminance detection unit, a luminance peak detection unit and a controller. The image capturing unit captures images rearward of a vehicle. The object detection unit detects a presence of an object from the captured images. The nighttime assessment unit assesses if nighttime has fallen. The luminance detection unit detects a luminance of image areas from the captured image. The luminance peak detection unit detects a peak in the luminance having a luminance gradient that is greater than or equal to a predetermined reference value from among the detected peaks in the luminance as a target luminance peak. The controller controls detection of the object in an image area in which the target luminance peak is detected when an assessment has been made that nighttime has fallen by the nighttime assessment unit.

Motion blur is applied to select objects in a video, e.g., to footballs in flight or to a tennis ball during a tennis match. Motion blur is applied only to the tennis ball, rather than the entire screen, or only to the football. If desired, the TV can also increase the contrast or apply a glow around the object of interest so that the user can have an easier time tracking the object of interest. Should the user pause a sports broadcast at any frame or play in slow motion, the position of the object in the trick play format is interpolated as being the center position of the motion-blurred image.

A media application is disclosed. The media application provides a playback of a media item that includes a video portion and an audio portion. The media application stops the playback of the video portion of the media item while continuing to provide the audio portion of the media item. The media application resumes the playback of the video portion of the media item in synchronization with the audio portion being provided.

Systems and approaches are provided to allow for collaborative image capturing. Multiple user devices subscribed to the collaborative image capturing system can be synchronized to perform certain image capturing related tasks, including coordinated image capture. When the user devices are widely dispersed, the image data can be aggregated to generate composited image data, such as panoramas, 3-D transformations, or stereoscopic image data. Multiple user devices can also be coordinated to simultaneously flash or activate other light emitting components that may improve lighting condition than would otherwise be capable of a single computing device.

A terminal device and controlling method thereof are disclosed, by which sound or video on taking a photo can be saved as background data. The present invention includes a camera unit configured to capture an image, a memory configured to store the captured image, an output unit configured to display the captured image, and a controller controlling the camera unit, the memory and the output unit, the controller, if a command of driving the camera unit is inputted, controlling the camera unit to run a preview, record a sound and/or shoot a video, the controller temporarily saving the sound or the video, the controller, if a 2.sup.nd image is captured, controlling the memory to store the sound or the video in a manner of linking the sound or the video to at least one of the image or the second image.

An apparatus comprising a processor and memory including computer program code, the memory and computer program code configured to, with the processor, enable the apparatus at least to: use received current-field-of-view indication data together with future-event-direction data, in respect of recorded panoramic video output provided by panoramic video content data, to provide a sensory cue for a viewer of the recorded panoramic video output to indicate the direction of a future event in the recorded panoramic video output which is outside a current field of view, wherein the recorded panoramic video output is configured to provide video content to the viewer which extends outside the field of view of the viewer in at least in one direction, and the future-event-direction data is supplemental to the panoramic video content data which provides the video content itself.

Software is provided to collect events that transpire during an event. Captured video of the event can then be aligned to the events by calculating an offset between timestamps provided by the devices used to capture the action data and film data. A video clip can be sourced to review events that occurred.

A video processing system includes: an object movement information acquiring means for detecting a moving object moving in a plurality of segment regions from video data obtained by shooting a monitoring target area, and acquiring movement segment region information as object movement information, the movement segment region information representing segment regions where the detected moving object has moved; an object movement information and video data storing means for storing the object movement information in association with the video data corresponding to the object movement information; a retrieval condition inputting means for inputting a sequence of the segment regions as a retrieval condition; and a video data retrieving means for retrieving the object movement information in accordance with the retrieval condition and outputting video data stored in association with the retrieved object movement information, the object movement information being stored by the object movement information and video data storing means.