Systems and methods for managing Application Programming Interfaces (APIs) are disclosed. Systems may involve automatically generating a honeypot. For example, the system may include one or more memory units storing instructions and one or more processors configured to execute the instructions to perform operations. The operations may include receiving, from a client device, a call to an API node and classifying the call as unauthorized. The operation may include sending the call to a node-imitating model associated with the API node and receiving, from the node-imitating model, synthetic node output data. The operations may include sending a notification based on the synthetic node output data to the client device.

A student terminal is for viewing a class given in a virtual space that is immersive. The student terminal includes: a VR function section configured to display the virtual space according to virtual space information; and an input section for receiving a video capturing a desk of a student who views the class. The VR function section extracts, from the video, an area including a top plate of the desk corresponding to a desk object in the virtual space, and performs image composition for fitting a video capturing the area onto a top plate of the desk object.

There is provided an information processing apparatus and method capable of more easily comparing 3D objects. Comparison information which is information for displaying a plurality of 3D objects of 6DoF content in a comparable manner is generated. Further, the plurality of 3D objects of the 6DoF content is displayed in a comparable manner on the basis of comparison information which is information for displaying the plurality of 3D objects in a comparable manner. The present disclosure can be applied to, for example, an information processing apparatus, an information processing method, an information processing system, and the like.

A method for synchronizing an action of a target object with source audio is provided. Facial parameter conversion is performed on an audio parameter of the source audio at different time periods to obtain source parameter information of the source audio at the respective time periods. Parameter extraction is performed on a target video that includes the target object to obtain target parameter information of the target video. Image reconstruction is performed on the target object in the target video based on the source parameter information of the source audio and the target parameter information of the target video, to obtain a reconstructed image. Further, a synthetic video is generated based on the reconstructed image, the synthetic video including the target object, and the action of the target object being synchronized with the source audio.

A production facility receives program content from a plurality of broadcast feeds over the Internet. In an embodiment, the production facility comprises server on a computer network, such as the Internet. The server comprises computer programs configured to manipulate the audio and video data of the multiple program contents. At the production facility, the program content can be manipulated to produce a production. Program manipulation can comprise at least one of green screen technology, music, graphics, Foley, sound effects, voice over, advertising, or the like. The production is broadcast over the computer network to viewers, where the viewers receive the production. In an embodiment, the production is customized based on the viewers' input received while broadcasting. In other words, the production is customized in real time based at least in part on the interaction of the production with the viewers. In another embodiment, the viewers can further manipulate the program content of the production to create a new production, which can be broadcast over the customized programming system.

The present disclosure provides a system and method for enabling navigation to one or more discrete segments of a real time dynamic and adaptive non-linear, non-sequentially assembled video. The method includes reception of a set of preference data associated with a user from a pre-defined selection criteria and a set of user authentication data. Accordingly, the method includes fetching of one or more tagged videos related to the set of preference data. The method includes fragmentation of the one or more tagged videos into the one or more tagged fragments. Further, the method includes clustering of one or more mapped fragments in a pre-defined order of preference. Furthermore, the method includes insertion of one or more interactive navigation options in one or more regions. Also, the method includes serving of the assembled video and inserted one or more interactive navigation options to the user.

Devices, systems, and methods are provided for use in interpreting, converting, generating, embedding, presenting, storing and otherwise using mini-banner content. For at least one embodiment, a mini-banner content system may include a secondary content system element which executes non-transient computer executable instructions to configure: a content interpreter to interpret secondary content, identify aspect information, and output the aspect information; a content converter, which when receiving aspect information at least one of retrieves a first element corresponding to the aspect information and/or generates a second element corresponding to the aspect information, and generates a mini-banner content element based upon results of the retrieving operation and/or the generating operation.

A computer-implemented method includes obtaining first data, including telemetry data and beatmap synchronization data from a user device such as a virtual reality (VR) headset. The telemetry data relates to actions and/or movements of a person wearing the user device in a real-world environment. The telemetry data and beatmap synchronization data are used to produce one more video segments of a virtual person in a virtual world environment. The video production may take place in the cloud, away from the user device. The video production may include post-production and visual effects. The video production may be higher quality and/or resolution than images displayed in real-time on the user device.

Methods and apparatus are disclosed for video transmission using tokens. According to one example, computer-readable storage media store instructions that cause a processor to: distribute, toward terminal devices of a plurality of viewers via a communication line, motion data or a first video including an animation of an avatar of a distributor generated on the basis of the motion data; distribute, toward the terminal devices of the plurality of viewer via the communication line, a second video related to a computer-implemented game generated on the basis of operation data by using a received web page; receive, via the communication line, token data indicating that any type of token among a plurality types of tokens is given to the distributor, the token data being generated by the terminal device of each viewer viewing the second video; calculate a score based on the total number of at least one type of tokens given to the distributor using the token data; and control a game object used in the game on the basis of the score.

The disclosed computer-implemented method may include (1) accessing a first media data object and a different, second media data object that, when played back, each render temporally sequenced content, (2) comparing first temporally sequenced content represented by the first media data object with second temporally sequenced content represented by the second media data object to identify a set of common temporal subsequences between the first media data object and the second media data object, (3) identifying a set of edits relative to the set of common temporal subsequences that describe a difference between the temporally sequenced content of the first media data object and the temporally sequenced content of the second media data object, and (4) executing a workflow relating to the first media data object and/or the second media data object based on the set of edits. Various other methods, systems, and computer-readable media are also disclosed.