An endoscopy video feature enhancement platform (EVFEP) is connected to the output of any type endoscope system, and inputs and captures the output video. The video is visually augmented live with indicators of possible polyp detection and localization, polyp attributes, and procedure metrics, based on the collective learning of the output results of many different types of endoscopy systems on a large scale. An artificial intelligence model is trained on confirmed polyp detection previously determined by this and other EVFEP devices used with many different types of endoscope systems on a large scale. Augmented video, images and automatically generated short video clips of key procedure segments are passed to a reporting system, and supplemented with meta data.

An endoscopy video feature enhancement platform (EVFEP) is connected to the output of any type endoscope system, and inputs and captures the output video. The video is visually augmented live with indicators of possible polyp detection and localization, polyp attributes, and procedure metrics, based on the collective learning of the output results of many different types of endoscopy systems on a large scale. An artificial intelligence model is trained on confirmed polyp detection previously determined by this and other EVFEP devices used with many different types of endoscope systems on a large scale. Augmented video, images and automatically generated short video clips of key procedure segments are passed to a reporting system, and supplemented with meta data.

A communication terminal is communicable with another communication terminal mounted on a mobile apparatus or with a communication device of the mobile apparatus via a network. The communication terminal transmits operation instruction information for controlling the mobile apparatus to the another communication terminal or the communication device. The communication terminal includes circuitry configured to: receive a first video transmitted by one of the another communication terminal and the communication device and a second video having a wide-angle of view captured by a wide-angle image capturing apparatus; display, on a display device, at least one of the first video and the second video that are received; and display, on the display device, a controller for controlling an operation of the mobile apparatus as being superimposed on the at least one of the first video and the second video.

A communication terminal is communicable with another communication terminal mounted on a mobile apparatus or with a communication device of the mobile apparatus via a network. The communication terminal transmits operation instruction information for controlling the mobile apparatus to the another communication terminal or the communication device. The communication terminal includes circuitry configured to: receive a first video transmitted by one of the another communication terminal and the communication device and a second video having a wide-angle of view captured by a wide-angle image capturing apparatus; display, on a display device, at least one of the first video and the second video that are received; and display, on the display device, a controller for controlling an operation of the mobile apparatus as being superimposed on the at least one of the first video and the second video.

Display of free viewpoint video content is switched so as to alleviate health hazard to viewers without impairing the reality.

The omni window is a window integrating all windows, through each of which each sub-content is looked in from main content, and also serves as an entrance to a free viewpoint space of each sub-content. A viewer can go back and forth between different free viewpoint spaces by way of the omni window and the free viewpoint video is switched in accordance with such an exploring motion within the spaces. Furthermore, it is possible to impart a conversion function for a perceived size of the viewer to the omni window.

Display of free viewpoint video content is switched so as to alleviate health hazard to viewers without impairing the reality.

The omni window is a window integrating all windows, through each of which each sub-content is looked in from main content, and also serves as an entrance to a free viewpoint space of each sub-content. A viewer can go back and forth between different free viewpoint spaces by way of the omni window and the free viewpoint video is switched in accordance with such an exploring motion within the spaces. Furthermore, it is possible to impart a conversion function for a perceived size of the viewer to the omni window.

A user interface allows for blending of television program choices from which a viewer may select, the blending representing options for linear and non-linear programming presented together within a single hierarchy of a designated category. The blending may further include managed content relevant to the designated category, where desired. Such designated categories may include television programming categories and/or content categories. The options for linear and non-linear programming may be presented together within a single screen of the user interface.

A medical imaging system includes an endoscope and a processor. The endoscope includes a camera that outputs a video signal with a plurality of portions. The processor receives the video signal and processes a first portion of the plurality of portions according to a first processing mode to generate a first processed video signal, processes a second portion of the plurality of portions of the sensor signal according to a second processing mode to generate a second processed video signal, and generates an output video signal using the first processed video signal and the second processed video signal.

A medical imaging system includes an endoscope and a processor. The endoscope includes a camera that outputs a video signal with a plurality of portions. The processor receives the video signal and processes a first portion of the plurality of portions according to a first processing mode to generate a first processed video signal, processes a second portion of the plurality of portions of the sensor signal according to a second processing mode to generate a second processed video signal, and generates an output video signal using the first processed video signal and the second processed video signal.

A video playing method and a terminal device and method including starting, by a terminal device, at least two playing instances based on an operation instruction of a user, where each of the at least two playing instances corresponds to a video display window, and where the video display window includes a first video display window and a second video display window, playing first channel content in the first video display window and playing second channel content in the second video display window according to a display mode selected by the user, detecting an operation gesture of the user on the first video display window or the second video display window, and adjusting playing modes of the first channel content and the second channel content according to the operation gesture of the user and a current display mode.