Methods, apparatus, systems, and articles of manufacture for user identification via community detection are disclosed. Example instructions, when executed, cause at least one processor to at least access personally identifiable information to device links, build a device graph based on the personally identifiable information to device links, split components of the device graph into person clusters using community detection, create a snapshot including a device-to-person link lookup, and prepare a person-level impression measurement report from the snapshot.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for obtaining a global model for a particular activity, the global model derived based on input data representing multiple observations associated with the particular activity performed by a collection of users; determining, using the global model, expected data representing an expected observation associated with the particular activity performed by a particular user; receiving, by a computing device operated by the particular user, particular data representing an actual observation associated with the particular activity performed by the particular user; determining, by the computing device and using (i) the expected data and (ii) the particular data, residual data of the particular user; and deriving a local model of the particular user based on the residual data.

Aspects of the present disclosure involve a system comprising a computer-readable storage medium storing a program and method for streaming a live session. The program and method provide for receiving, from a first device of a first user, indication of first user input provided by the first user with respect to a first data input field of plural data input fields included in a displayed page; determining whether the first user input corresponds to personally identifiable information; causing, when the first user input does not correspond to personally identifiable information, a second device associated with a second user to display the plural data input fields and to display the first user input; and causing, when the first user input corresponds to personally identifiable information, the second device to display the plural data input fields and to mask display of the first user input.

Disclosed is a system for tracking user interactions with an application to recommend creation of a microapp. The system determines a recommendation score for creating a microapp corresponding to a functionality of an application based on at least one of the amount of time users spend interacting with the application, the number of interface elements of the application that the user changes, and the input values provided by the users. The system uses interactions corresponding to multiple different users to determine the recommendation score. The system may also recommend an interface element to be included in the microapp. The recommendation score is provided to an administrator, who may use the information to create a microapp.

Disclosed is a system for tracking user interactions with an application to recommend creation of a microapp. The system determines a recommendation score for creating a microapp corresponding to a functionality of an application based on at least one of the amount of time users spend interacting with the application, the number of interface elements of the application that the user changes, and the input values provided by the users. The system uses interactions corresponding to multiple different users to determine the recommendation score. The system may also recommend an interface element to be included in the microapp. The recommendation score is provided to an administrator, who may use the information to create a microapp.

Communication between an owner of a lost tracking device and a finder of a lost tracking device is established. A tracking system receives an identifier of a tracking device and a request for a web page from a mobile device that has captured an image of a smart code on the tracking device. The smart code is embedded with a URL to the web page. The system displays the web page on the mobile device and prompts the user to provide a location of the mobile device. The location is associated with the identifier of the tracking device. A notification indicating the location of the tracking device is generated for the owner. The owner is prompted to provide information to establish contact with the finder of the device, and the web page is populated with the owner's provided information for display on the finder's mobile device.

Disclosed herein are apparatuses and methods for managing collaborations in an operation control center. An implementation may comprise identifying, using at least one sensor, a plurality of persons in an operation control center comprising a display device. The implementation may comprise retrieving, from memory, user profiles of a first person and a second person, wherein the user profiles respectively indicate security access rights and responsibilities of the first person and the second person and determining locations of the first person and the second person in the operation control center. The implementation may comprise allocating, on the display device, a first display area to the first person and a second display area to the second person based on the locations, the security access rights, and the responsibilities. The implementation may comprising notifying the first person or the second person of a security event on a display area.

A system for providing network monitoring and a captive learning portal for a network including a parent device and at least one child devices is provided. The system includes a server providing an authentication system and a learning management system, a gateway device providing a router function and a firewall function. The gateway device connects with the child device and prompts to enter child credentials associated with a child account, communicates with the server to verify the child credentials, and allocate a first time limit to the child account, grants access to the Internet for the child device associated with the child account via the router function in response to successful verification of the child credentials, and blocks access to the Internet for the child device associated with the child account via the firewall function upon said first time limit being reached according to parental control settings for the child account.

A system for providing network monitoring and a captive learning portal for a network including a parent device and at least one child devices is provided. The system includes a server providing an authentication system and a learning management system, a gateway device providing a router function and a firewall function. The gateway device connects with the child device and prompts to enter child credentials associated with a child account, communicates with the server to verify the child credentials, and allocate a first time limit to the child account, grants access to the Internet for the child device associated with the child account via the router function in response to successful verification of the child credentials, and blocks access to the Internet for the child device associated with the child account via the firewall function upon said first time limit being reached according to parental control settings for the child account.

Systems and methods implemented in a node in a cloud-based system include operating a first cloud service that is implemented as a monolith system; operating a RESTful framework (Representational State Transfer web service) embedded in the cloud node; and operating one or more applications for one or more cloud services utilizing the RESTful framework, wherein the one or more applications are microservices. The RESTful framework utilizes Hypertext Transfer Protocol (HTTP) methods.