The non-linear program planner, preparation, and delivery system performs multiplatform planning and scheduling across multiple content delivery platforms. The system coordinates planning to deliver high-quality video content in a very efficient and scalable manner. The system includes automated avails and other processes that increases the accuracy of the information provided to distribution partners. The system checks on content rights and incorporates metadata structures that facilitate delivery of content to a wide range of distribution channels. The invention increases accuracy, timeliness, and efficiency of content delivered to partners and allows providers to generate revenue from online (non-linear) platforms and over the top (OTT) video services.

Methods, apparatus, and processor-readable storage media for automatically syndicating licensed third-party content across enterprise webpages are provided herein. An example computer-implemented method includes generating, in connection with licensed third-party content, one or more licensed third-party content syndication files comprising a set of fields related to enterprise product information, licensed third-party content format information, license-related governance information, and enterprise webpage-based distribution information; processing at least a portion of the licensed third-party content using the one or more licensed third-party content syndication files; and automatically syndicating the at least a portion of the licensed third-party content, in accordance with the processing, across multiple user interfaces associated with one or more enterprise webpages, using at least one application programming interface.

This disclosure relates generally to a method and system for securely conducting a digital examination. The present disclosure uploads the question papers, OMR bubble sheet and question paper's color information specific to an examination to a server wherein it is encrypted, zipped into a bundle wherein a unique key is generated. The encrypted bundle is downloaded, decrypted and unzipped on an electronic device using the user provided key wherein the invigilator adds the required details and encrypt again. The encrypted bundle is distributed to the candidate device through the paper distribution adhoc protocol. The candidate downloads, unzip and decrypts the encrypted bundle on the candidate device and provides the response to the question paper. The candidate's responses are evaluated, and result is declared locally if the candidate device is configured with a master key or uploaded to the server for further processing.

Provided is an information terminal connected to a communication terminal which is connectable to one or more other information terminals, wherein the information terminal comprises a communication unit which receives, from the communication terminal, a connection history with the other information terminals which were previously connected to the communication terminal, and a license transfer management unit which extracts an information terminal among the other information terminals that satisfies a license transfer condition based on the received connection history.

A system for providing secure, verified, and authenticated identification for an individual is disclosed, including a cyphered byte array for storing identifying information associated with an individual. An ID card includes at least one code associated with the individual's associated identifying information. The ID card is scanned by a computing device associated with an authority or a third-party via an API web server interface to permit the authority or the third-party to verify the identity of the individual.

It is provided a method for providing data for training a machine learning model. The method is performed in a training data provider (1) and comprises the steps of: obtaining (40) a data structure comprising a chain of delegations, the chain of delegations covering a delegation path from a media capturing device (3) to the training data provider (1) such that, in the chain of delegations, each delegation is a delegation from a delegator to a receiver; sending (42) a key request to a delegation verifier (2), the key request comprising the data structure; receiving (44) a decryption key from the delegation verifier (2); obtaining (46) encrypted media data captured by the media capturing device (3); decrypting (48) the encrypted media data, resulting in decrypted media data; and providing (50) the decrypted media data for training the machine learning model.

This disclosure relates generally to a method and system for securely conducting a digital examination. The present disclosure uploads the question papers, OMR bubble sheet and question paper's color information specific to an examination to a server wherein it is encrypted, zipped into a bundle wherein a unique key is generated. The encrypted bundle is downloaded, decrypted and unzipped on an electronic device using the user provided key wherein the invigilator adds the required details and encrypt again. The encrypted bundle is distributed to the candidate device through the paper distribution adhoc protocol. The candidate downloads, unzip and decrypts the encrypted bundle on the candidate device and provides the response to the question paper. The candidate's responses are evaluated, and result is declared locally if the candidate device is configured with a master key or uploaded to the server for further processing.

The non-linear program planner, preparation, and delivery system performs multiplatform planning and scheduling across multiple content delivery platforms. The system coordinates planning to deliver high-quality video content in a very efficient and scalable manner. The system includes automated avails and other processes that increases the accuracy of the information provided to distribution partners. The system checks on content rights and incorporates metadata structures that facilitate delivery of content to a wide range of distribution channels. The invention increases accuracy, timeliness, and efficiency of content delivered to partners and allows providers to generate revenue from online (non-linear) platforms and over the top (OTT) video services.

The non-linear program planner, preparation, and delivery system performs multiplatform planning and scheduling across multiple content delivery platforms. The system coordinates planning to deliver high-quality video content in a very efficient and scalable manner. The system includes automated avails and other processes that increases the accuracy of the information provided to distribution partners. The system checks on content rights and incorporates metadata structures that facilitate delivery of content to a wide range of distribution channels. The invention increases accuracy, timeliness, and efficiency of content delivered to partners and allows providers to generate revenue from online (non-linear) platforms and over the top (OTT) video services.

The non-linear program planner, preparation, and delivery system performs multiplatform planning and scheduling across multiple content delivery platforms. The system coordinates planning to deliver high-quality video content in a very efficient and scalable manner. The system includes automated avails and other processes that increases the accuracy of the information provided to distribution partners. The system checks on content rights and incorporates metadata structures that facilitate delivery of content to a wide range of distribution channels. The invention increases accuracy, timeliness, and efficiency of content delivered to partners and allows providers to generate revenue from online (non-linear) platforms and over the top (OTT) video services.