Systems and methods are described herein to automate managing of service layer operations comprised of multiple elementary operations and offloading the burden of performing such multi-step operations from a requesting entity to the service layer. A Request Abstraction Service (RAS) is described herein for the autonomous execution of such multi-step operations. Methods and apparatuses are also described herein for a service layer framework for integrating generic and functional user interfaces as services managed by the SL on behalf of requesting entities.

Systems and methods are described herein to automate managing of service layer operations comprised of multiple elementary operations and offloading the burden of performing such multi-step operations from a requesting entity to the service layer. A Request Abstraction Service (RAS) is described herein for the autonomous execution of such multi-step operations. Methods and apparatuses are also described herein for a service layer framework for integrating generic and functional user interfaces as services managed by the SL on behalf of requesting entities.

Systems and methods for selecting content based on an event associated with a device identifier are provided. One or more processors can receive a request to serve content. The processors can identify a device identifier associated with the request. The processors can determine, from the device identifier, an event for which to serve content. The processors can determine, from the request, a length of time between a time the request to serve content is received and a time at which the event is scheduled to occur. The processors can select, based on the determined length of time and event parameters associated with the event, content for display and provide the selected content for display at a computing device associated with the device identifier.

A server includes a first server configured to receive requests and a plurality of second servers configured to service requests. A method of client-server communication includes receiving, at the first server, a request from the client and allocating the request to one of the second servers. The server determines if the allocated second server can provide a response to the request within a predetermined time period. If the allocated second server cannot provide a response to the request within the predetermined time period it sends a reply to the client indicating when the server system can provide a response to the request and including an identifier of the allocated second server. Server generates a response to the request. Server receives a callback message from the client. Server sends the response to the client.

Systems and methods are disclosed for delivering programming content to vehicles (e.g., seagoing vessels) in a cost-effective manner. In some embodiments, programming content may be delivered to vehicles over previously deployed networks (e.g., satellite networks), using excess network capacity which may not otherwise be used to deliver data. By opportunistically employing excess network capacity (e.g., as the capacity becomes available), data constituting programming content may be delivered to vehicles over a period of time, such as via multicast transmission. A vehicle may store received data on one or more onboard servers. After an item of programming content has been received, the item may be made accessible to the vehicle's crew and/or passengers, such as by streaming the item to one or more suitably configured playback devices. Content may be served to playback devices “on demand” and/or according to a programming schedule.

An operation information management method includes detecting, for each user, access frequency corresponding to farming use information that represents an index of work performed in a field by a working device. In addition, the operation information management method includes deciding, for each user, a sampling interval to obtain operation information that indicates an operating state of the working device in accordance with the access frequency. In some implementations, deciding the sampling interval for each user may include deciding a position of the access frequency of a corresponding user in a distribution of the access frequency and deciding the sampling interval on the basis of the position of the access frequency.

An operation information management method includes detecting, for each user, access frequency corresponding to farming use information that represents an index of work performed in a field by a working device. In addition, the operation information management method includes deciding, for each user, a sampling interval to obtain operation information that indicates an operating state of the working device in accordance with the access frequency. In some implementations, deciding the sampling interval for each user may include deciding a position of the access frequency of a corresponding user in a distribution of the access frequency and deciding the sampling interval on the basis of the position of the access frequency.

A method begins by a plurality of dispersed storage network (DSN) units of a DSN determining to perform a DSN level task for a range of DSN addresses. The method continues with each of the plurality of DSN units executing a scoring function using one or more properties of the range of DSN addresses and one or more properties of each of the plurality of DSN units to produce a scoring resultant. The method continues with each of the plurality of DSN units identifying a DSN unit of the plurality of DSN units to execute the DSN level task based on the scoring resultant. The method continues with the identified DSN unit executing the DSN level task for the range of DSN addresses.

A system and method for callback management, utilizing a callback cloud, a digital ledger, and smart callback contracts, brokering user to user communications and session establishment using an automated workflow built upon extensible root smart contract templates which can be configured to connect various users and brands. The system may comprise callback cloud, that may further comprise a callback manager, a brand interface server, an interaction manager, a media server, one or more blockchain digital ledgers, and various smart contracts which are used to autonomously respond to received user requests.

The invention provides a system, a method and a computer program product that facilitate access to one or more applications by a computing device. The invention includes determining one or more contexts associated with at least one of the computing device and a user of the computing device, such that the one or more contexts describe at least one of an environment and an activity of the at least one of the user and the computing device. Thereafter at least one contextual tag corresponding to the one or more contexts is generated. Subsequently, the one or more applications associated with the at least one contextual tag are identified and the computing device is enabled to access the one or more applications.