A method for data-centric networked application development includes: modifying a graphical user interface of a networked application development environment with a selectable component for including a reusable data entity in a project, the reusable data entity being defined and bound to a form component via interaction with the graphical user interface; and configuring a block of a data-centric form of the project with the form component in response to selection of the selectable component at a design surface of the graphical user interface.

The current disclosure relates to a system and method for auditing application parameters in a communication network. In particular, the method includes retrieving a set of golden parameter master lists from an auditing database, where each golden parameter master list corresponds to an application of the telecommunications network, and where each golden parameter master list comprises a set of parameter values for the respective application. The method also includes selecting a list of one or more applications for auditing, and for each application in the list: selecting a corresponding golden parameter master list from the set of golden parameter master lists and comparing each of the parameter values of the golden parameter master list to a corresponding set of parameter values of the application to generate a set of discrepancies.

Technology is disclosed for a Third Generation Partnership Project (3GPP) management system operable for peer-to-peer (P2P) edge computing in a fifth generation (5G) computing network. The 3GPP management system can be configured to: identify a user plane function (UPF) based on quality of service (QoS) requirements. The 3GPP management system can be configured to request, from an edge computing management system, deployment of an application server (AS). The 3GPP management system can be configured to request a network functions virtualization (NFV) orchestrator (NFVO) to connect the UPF and the AS based on the QoS requirements.

The present disclosure relates to methods and associated systems for operating a battery exchange station. The present method includes (1) receiving a ratio associated with a plurality of vehicles served by the battery exchange station; and (2) based on the ratio, storing different sets of information in memories associated with the batteries respectively, in accordance with received ratio.

A medical device for use in patient resuscitation and that is configured to communicate with one or more management servers includes a memory, a processor communicably coupled to the memory and configured to store device status information including device-readiness information from a medical device self-test, and store clinical event information observed by the medical device during a use of the medical device during a clinical event, the clinical event information including CPR performance data, and a communication component communicably coupled to the processor and configured to wirelessly transmit the device status information and the clinical event information to the one or more management servers, wherein the medical device includes an external defibrillator, an automated external defibrillator, or a compression assistance device.

A system and a method are provided for enabling a user to connect a serial port of a device server to a serial device, query and capture data and settings pertaining to the serial device such that the device server can communicate and exchange data with the serial device without requiring customized programming. The device server may periodically query and capture user-specified data from the serial device. A poll configuration feature may be used to specify one or more commands which the device server will periodically query from the serial device. The response to each poll may be further sliced into a multiplicity of smaller portions according to user-specified filter rules. The captured data may be presented to other users online by way of a Web Manager, and the device server may establish machine-to-machine communications by way of XML and a Command Line Interface.

A method for shared aeronautical object management includes receiving, from an owner flight application at a server, a share command for an aeronautical object, and flagging the aeronautical object as a shared object. The method further includes transmitting, to a first recipient flight application, the first shared object, receiving an update to the shared object, and transmitting, responsive to receiving the update, the update to the first recipient flight application based on the first recipient flight application being connected to the server when the first update is received. The method further includes receiving a shared object changed version command from the second recipient flight application, and transmitting, responsive to receiving the shared object changed version command, the update to the second recipient flight application.

Systems and methods for namespace masking in an integration flow. In order to mitigate issues arising due to application updates impacting integration flows, during the metadata generation phase, all the elements which are available for operation selection can be cloned and replaced with a new namespace. The original elements are deleted from the metadata. The systems and methods can maintain the original namespace and the element name at a predefined place in the metadata (e.g., as an attribute of the cloned Element). The cloned element in addition to all the original fields of the element, can have one additional field which will store the value of the original namespace.

The present invention includes computerized method and apparatus for user interactivity with a network application executing on a server. The method and apparatus includes receiving, via a wireless network, an event message from a mobile device, the event message representing an input from a user interface on the mobile device where the user interface is executing based on a mobile application. The method and apparatus further includes generating data values based on the input in the event message and information relating to the mobile device. Moreover, the method and apparatus includes sending an update message to the mobile device based on the data values for updating a display of the mobile device.

A computer-implemented method for controlling content distribution includes forwarding information associated with a user to a device operated by the user, the information being configured for use in selecting content from any of multiple content providers for a content distribution to the user. The method includes receiving, in response to the information, an edit of the information forwarded from the device. The edit identifies a first content provider and including a first modification of the content distribution regarding the first content provider. The method includes storing the edit in association with the information such that the first modification is taken into account in the content distribution. The method can be implemented using a computer program product tangibly embodied in a computer-readable storage medium.