A client and server are provided with the same digital image of a slice of a biological material, which has been applied with a staining substance. The server is used for pre-processing the digital image and provides results of the pre-processing to the client in turn of a request. The server is configured to classify each pixel of the digital image, wherein the pixel is classified as stained, The client is configured to determine the region of interest at the digital image, and request data related to the classification of the pixels at the region of interest at the server. The server can provide the classification results related to the classification of the pixels at the region of interest at the digital image to the client.

The invention relates to a method for configuring a monitoring system for monitoring industrial processes and industrial assets. The method comprising, the monitoring system: receiving data associated with operation of industrial plants in native data format, adapting a common predefined data model to organize the data to convert in a common structured data format for use by application functions, receiving a request for data processing, generating a graphical view of the industrial process; identifying specific industrial processes and assets relating to the request of data processing and generating the graphical view; processing of specific data according to data processing request and generating a first graphical view associated for the specific data and associated identifiers according to a preconfigured first view configuration, generating a second graphical view from the first graphical view by incorporating a new view configurations onto the first view configuration based on result of data processing.

The invention relates to a method for configuring a monitoring system for monitoring industrial processes and industrial assets. The method comprising, the monitoring system: receiving data associated with operation of industrial plants in native data format, adapting a common predefined data model to organize the data to convert in a common structured data format for use by application functions, receiving a request for data processing, generating a graphical view of the industrial process; identifying specific industrial processes and assets relating to the request of data processing and generating the graphical view; processing of specific data according to data processing request and generating a first graphical view associated for the specific data and associated identifiers according to a preconfigured first view configuration, generating a second graphical view from the first graphical view by incorporating a new view configurations onto the first view configuration based on result of data processing.

Embodiments of the present application disclose a method and an apparatus for pushing information. One embodiment of the method comprises: in response to the receipt of an information push request sent by a user by means of a terminal, determining object information about at least one object associated with user information included in the information push request; determining target push information according to the user information, the object information, and a pre-established information determination model, the information determination model being used for characterizing a correlation between user information, object information, and target push information; and pushing the target push information to the terminal for the user to view by means of the terminal.

Empirical data of exit nodes are continuously monitored and each exit node's overall performance and available capacity are calculated. The empirical data can include monitoring the number of concurrent requests currently being executed by each exit node and the disconnection chronology of each exit node. Further, each exit node is tested by benchmark requests and ping messages and each exit node's quality rate is calculated. Additionally, systems and methods are provided to select an exit node with the highest quality and available capacity value, from a particular pool to route the user request.

Empirical data of exit nodes are continuously monitored and each exit node's overall performance and available capacity are calculated. The empirical data can include monitoring the number of concurrent requests currently being executed by each exit node and the disconnection chronology of each exit node. Further, each exit node is tested by benchmark requests and ping messages and each exit node's quality rate is calculated. Additionally, systems and methods are provided to select an exit node with the highest quality and available capacity value, from a particular pool to route the user request.

A method for providing service based interface (SBI) support for network elements (NEs) not supporting SBI service operations includes receiving SBI configuration parameters for an NE not supporting SBI service operations. The method further includes establishing a connection with the NE not supporting SBI service operations. The method further includes registering, with a network function (NF) repository function (NRF) and using the SBI configuration parameters, the NE not supporting SBI service operations. The method further includes monitoring, over the connection, status of the NE not supporting SBI service operations. The method further includes updating, with the NRF, the status of the NE not supporting SBI service operations.

Applications or Agents or Administrators can communicate with services and/or applications at hosted and/or remote locations via proxy service or application endpoints. Proxy Services described here may, in examples, manage the life cycle of communication channels, or tunnels to ensure guaranteed access to hosted services and applications regardless of their location. Examples of proxy services may create one or more tunnels, each in accordance with a particular tunneling protocol. The tunneling protocol used may be selected in accordance with a request, including information parameters—in this manner, proxy services described herein may be quite flexible in supporting tunneling connections to multiple and variable types of services and tunneling protocols

Disclosed herein are system, method, and computer program product embodiments for disaster resilience of applications managed by Kubernetes operators. An embodiment operates by creating an orchestration and worker cluster, where the worker cluster is coupled to the orchestration cluster by a proxy server. Custom resources are deployed to the orchestration cluster and custom resource controllers are deployed to the worker cluster. The proxy server federates these custom resources between the orchestration cluster and the worker cluster. During disasters, the worker cluster is recreated and reconciled to prevent loss of the federated cluster.

Present disclosure relates to system and method for converting RTMP stream into HLS format for live stream. The solution architecture can include three main components: a Publisher (106), a Streamer (108) and an API server (112). The publisher (106) manages incoming RTMP streams and converts RTMP stream into multiple (resolutions) HLS streams with an adaptive bit rate. The streamer (108) manages end users consuming HLS feed. As publisher (106) can be busy doing transcoding, the streamer (108) can serve HLS format to an end user. At streamer level, caching is done instead of sending all requests to publisher. The API server (112) manages load on the publishers and the streamers, and makes sure that the servers are available all the time. Live stream API server keeps record of the streams which are available as well as the corresponding publishers having the streams.