The application provide an information sending method, comprising: determining changed alarm information of an alarm, where the changed alarm information includes at least one type of alarm information, and the alarm information includes at least one of a backup status identifier of an object of the alarm, a backup object identifier of the alarm, an identifier of a change trend of the alarm, threshold information of the alarm, change information of a configured object, a monitored attribute of a managed object, a repair suggestion for the alarm, and additional content that is of the alarm and that is used to indicate an attribute of the managed object; and sending the changed alarm information to a management system.

A method for aliasing of named data objects (in named data networks) and entities for named data networks (e.g., named graphs for named data networks). In various examples, aliasing of named data objects may be implemented in one or more named data networks in the form of systems, methods and/or algorithms. In other examples, named graphs may be implemented in one or more named data networks in the form of systems, methods and/or algorithms.

Systems, methods, and computer-readable storage media for routing event data from cloud-based sources to various service providers without using a permanently dedicated server (or similar solution). The solution disclosed herein is source agnostic, meaning that the data being received can be from any provider of cloud-based data, with the data received being in a format specific to the given provider. The system can normalize the data from the respective sources into a common format based on properties on the data and, based on the normalized data, identify what type of analysis, process, or other service should be executed on data received. The system can then forward the data to respective service providers for the execution of those services.

Systems, methods, and computer-readable storage media for routing event data from cloud-based sources to various service providers without using a permanently dedicated server (or similar solution). The solution disclosed herein is source agnostic, meaning that the data being received can be from any provider of cloud-based data, with the data received being in a format specific to the given provider. The system can normalize the data from the respective sources into a common format based on properties on the data and, based on the normalized data, identify what type of analysis, process, or other service should be executed on data received. The system can then forward the data to respective service providers for the execution of those services.

A proxy server sets up a tunnel with a managed object in a private network and allocates management information for the managed object. The management information comprises a management address of the managed object. The proxy server receives a network management message with a destination address being the management address of the managed object. The proxy server forwards the network management message to the managed object over the tunnel and forwards a network management message, from the tunnel, with a source address being the management address of the managed object to a Network Management System (NMS).

Techniques for management controllers are provided. In one aspect, a processor of a resource registration service of a management controller may receive, from a resource provider, a resource registration request to allocate a resource object in a data model. The resource registration request may include an indication that the resource object is to be joined to a public resource tree. The processor may then allocate the resource object within the data model. In allocating the resource object, the processor may update the public resource tree to link to the resource object based on the indication.

Systems, methods, and computer program embodiments are disclosed for providing network management services for a telecommunications network. In an embodiment, a request may be received for a service provided by an operations support system (OSS). Data may be retrieved from a network management database based on the received request. The network management database may store a plurality of network management data, and the stored data may be correlated to a service information model that defines a plurality of base network entities used to represent the architecture of the network. An information model template may then be read by the OSS that specifies one or more provider-specific network entities that extend the base network entities defined by the service information model. The retrieved data may then be operated on by the OSS, and the resulting output may be customized based on the provider-specific network entities of the information model template.

Systems, methods, architectures, mechanisms and/or apparatus to manage the plurality of network elements within a network by ranking some or all of the network elements according to respective measurements of network element health and performing a visualization function configured to provide image representative data including network element representative objects arranged in accordance with said network element ranking.

A method of carrying out a self-configuration process in respect of a network element in a cellular wireless network including the steps of: generating first configuration parameters at a domain manager level; determining required second configuration parameters which are not to be generated at the domain manager level; notifying a network manager level of the first configuration parameters and the second configuration parameters to cause this level to generate and provide the second configuration parameters and to provide them to the domain manager level; and using the first configuration parameters and the second configuration parameters at the domain manager level to configure the network element.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for managing an application having sub-applications sharded across different servers. A plurality of servers each serve a separate sub-application of a primary application that includes one or more of the sub-applications. The sub-applications are combined at a client device to create a graphical user interface of the primary application. Each of the sub-applications is separately served in response to multiple different network calls to multiple different servers initiated by the client device. Synchronization code, served by one or more of the servers, prevents the client device from initiating a network call for UI code that renders static user interface elements of each sub-application until the client device has initiated one or more networks calls requesting data that will be presented by a given user interface view of the sub-application.