Communicating information through a user platform by representing, on a user platform visual display, spatial publishing objects as entities at locations within a three-dimensional spatial publishing object space. Each spatial publishing object associated with information, and each presenting a subset of the associated information. Establishing a user presence at a location within the spatial publishing object space. The user presence, in conjunction with a user point-of-view, being navigable by the user in at least a two-dimensional sub-space of the spatial publishing object space.

Videos are to be displayed in parallel, without missing information or a decrease in efficiency in the usable display region.

The aspect ratio of the large screen of an information processing apparatus 100 is 16:9, which is compatible with a Hi-Vision video. In a case where the large screen is used in a portrait layout, if the large screen is divided into three small screens in the vertical direction, the aspect ratio of the small screens after the dividing is 9:16/3=16:9.48. With respect to the original video content at 16:9, the ratio in inches is 9/16=56.25% (the area ratio is (9/16).sup.2=31.64%). Accordingly, the usable display region can be efficiently used.

An interactive user interface (AW) of an interactive application is provided simultaneously with a programme display (P) within a display area of a television receiver, wherein a proportion of the display area occupied by the interactive user interface (AW) increases in response to user interaction with the interactive user interface (AW).

The various implementations described herein include methods, devices, and systems for detecting motion and persons. In one aspect, a method is performed at a smart home system that includes a video camera, a server system, and a client device. The video camera captures video and audio, and wirelessly communicates, via the server system, the captured data to the client device. The server system: (1) receives and stores the captured data from the video camera; (2) determines whether an event has occurred, including detected motion; (3) in accordance with a determination that the event has occurred, identifies video and audio corresponding to the event; and (4) classifies the event. The client device receives information indicative of the identified events, displays a user interface for reviewing the video and audio stored by the remote server system, and displays the at least one classification for the event.

The various implementations described herein include methods, devices, and systems for detecting motion and persons. In one aspect, a method is performed at a smart home system that includes a video camera, a server system, and a client device. The video camera captures video and audio, and wirelessly communicates, via the server system, the captured data to the client device. The server system: (1) receives and stores the captured data from the video camera; (2) determines whether an event has occurred, including detected motion; (3) in accordance with a determination that the event has occurred, identifies video and audio corresponding to the event; and (4) classifies the event. The client device receives information indicative of the identified events, displays a user interface for reviewing the video and audio stored by the remote server system, and displays the at least one classification for the event.

Methods, systems, and media for navigating a user interface are provided. In some embodiments, a method for navigating a user interface is provided, the method comprising: causing a user interface to be presented including a plurality of media identifier elements corresponding to media assets; causing the plurality of media identifier elements to be arranged along a first direction of the user interface; selecting a first media asset associated with a first media identifier element for presentation; identifying related media assets in response to selection of the first media asset; causing the first media asset to be presented in a first portion of the user interface; and causing related media identifier elements to be presented in a second portion of the user interface aligned with the first portion along the first direction.

According to a vehicle display system, a mobile terminal apparatus includes: a primary-screen-view display section that displays an output screen-view generated with execution of an application on the mobile terminal apparatus as a primary screen-view; a conversion section that converts the primary screen-view into a secondary screen-view complying with a vehicle apparatus; a manipulation layer generation section that generates a manipulation layer to manipulate the application; a state layer generation section that generates a state layer indicating a state of the mobile terminal apparatus; and a transmission section that transmits the secondary screen-view, the manipulation layer, and the state layer to the vehicle apparatus. The vehicle apparatus includes a secondary-screen-view display section that displays the manipulation layer and the state layer on the vehicle apparatus itself together with the secondary screen-view.

Provided herein are novel systems and methods of digital content delivery designed to be easy, instant, and minimally disruptive for the user. The novel systems and methods of the invention can provide the device user with an instant and ephemeral snippet of entertaining media, in a metered presentation controlled by the user. The system is minimally disruptive in that the user can summon a video clip or other media content with a simple input, whereupon a clip is instantly played for the user. Upon reaching the end of the media presentation, the media player window self-closes and returns the user's device to the exact state it was in prior. In this way, a user can enjoy a short, entertaining pause without substantially interrupting their previous activity on the device.

To provide a video processing device that allows a user to quickly search for a desired scene while at the same time easily confirming details of an image string. There is provided a video processing device that acquires a first image string and a second image string different from each other that are made up of a plurality of frame images extracted from a video of interest, that performs control such that the first image string is shown on a display device screen as an image string of interest, that causes the frame images included in the first image string to scroll in response to a scrolling operation by the user while the first image string is shown, and that switches the image string of interest from the first image string to the second image string if the scrolling operation satisfies a given determination condition.

A server offloads graphics effects processing to a client device with graphics processing resources by determining a modification to a graphics effects operation, generating a portion of a rendered video stream using the modification to the graphics effects operation, and providing an encoded representation of the portion of the rendered video stream to the client device, along with metadata representing the modification implemented. The client device decodes the encoded representation to recover the portion of the rendered video stream and selectively performs a graphics effects operation on the recovered portion to at least partially revert the resulting graphics effects for the portion to the intended effects without the modification implemented by the server.