A cloud gateway for coupling an industrial system to a cloud platform is provided. The cloud gateway collects data from one or more industrial controllers, meters, sensors, or other devices comprising an industrial automation system. The cloud gateway optionally performs additional transformations on the data to add context, summarize, filter, reformat, and/or encrypt the data. The cloud gateway then sends data to a cloud platform for use by one or more cloud-based applications or services. The cloud gateway can facilitate cloud-based data collection from both fixed-location and mobile industrial systems. The cloud gateway can also support store-and-forward logic, allowing industrial data to be temporarily stored in local storage in the event that communication between the cloud gateway and the cloud platform is disrupted.

A cloud gateway for coupling an industrial system to a cloud platform is provided. The cloud gateway collects data from one or more industrial controllers, meters, sensors, or other devices comprising an industrial automation system. The cloud gateway optionally performs additional transformations on the data to add context, summarize, filter, reformat, and/or encrypt the data. The cloud gateway then sends data to a cloud platform for use by one or more cloud-based applications or services. The cloud gateway can facilitate cloud-based data collection from both fixed-location and mobile industrial systems. The cloud gateway can also support store-and-forward logic, allowing industrial data to be temporarily stored in local storage in the event that communication between the cloud gateway and the cloud platform is disrupted.

The present disclosure provides a server device in a supervisory control and data acquisition system, wherein the system includes multiples client devices and the server device, wherein the server device comprises: a communication module to communicate with the multiple client devices; and a data service module configured: when a first client device has registered a requirement for processing data, to allocate a task for processing the data based on the requirement; and/or when a second client device subscribes to the requirement, to control the communication module to publish the requirement to the second client device; to process the data using the task; and to control the communication module to send the processed data to the first and/or second devices.

An engineering system for an industrial process automation system, wherein components of the industrial process automation system are each represented by a computer-based object within the engineering system and are continuously stored in an engineering database, where functions of the engineering system are made available as services via a standard service interface, process sequences and states for retrieving or processing objects stored in the engineering database are stored in an order database that is separate from the engineering database, and access to process sequences and states that are stored in the order database occurs via an order interface that is separate from the standard service interface.

A method performed by an OPC UA client includes importing a node set file pertaining to an OPC UA-enabled automation device, the nodeset file defining validation logic used to validate data to be written to the automation device; preparing data to be written to the automation device; and using the validation logic to validate the prepared data. An alternative method includes importing a nodeset file pertaining to an automation device in which a OPC UA server is embedded, the nodeset file defining validation logic used to validate data to be written to the automation device; receiving data to be written to the automation device; and using the validation logic to validate the received data.

A human interface technique is disclosed for industrial automation systems. The technique allows for visualizations to be distributed to interfaces, such as thin client interfaces, from automation components, such as automation controllers and other sources of visualization content. Access and delivery may be controlled by a visualization manager that stores policies for access to relevant content, such as based on an event, a user, a location of the user, and so forth. Upon occurrence of a particular event, such as relating to a machine or process that is monitored and/or controlled, the visualization manager may allow access to visualizations based upon the relevance factors.

A human interface technique is disclosed for industrial automation systems. The technique allows for visualizations to be shared between devices, such as human machine interfaces, thin client interfaces, and so forth. The initial access to the visualization content may be based upon policies stored in a visualization manager, such as user identification, user role, user or device location, event triggers, and so forth. Once the user has access to the visualization content, it may be shared with other users in accordance with the policies, or in at least partial circumvention of the policies.

A cloud-based operator interface system is provided that runs as a cloud service on a cloud platform. The cloud-based operator interface system collects industrial data from one or more industrial systems via respective cloud gateway devices. A set of predefined operator interface screens are stored on cloud storage associated with the operator interface system, and delivered to authorized Internet-capable client devices upon request. The industrial data received from the cloud gateways can be delivered to the client devices from the cloud platform via the operator interface screens. Additional cloud-side services can correlate and analyzes the industrial data on the cloud platform to facilitate additional reporting, alarming, and notification features.

A method for controlling real world objects in an industrial installation, which is performed in a server node and includes the steps of: receiving a connection establishment request having a user identity; authenticating the user identity; establishing a connection; receiving a service request, wherein the service request includes a reference to an aspect object and a reference to an aspect of the aspect object; forwarding the service request and the user identity to a service dispatcher module; determining a target service provider from the reference to the aspect object by querying a directory server module; and sending the service request and the user identity to the target service provider.

A cloud-based operator interface system is provided that runs as a cloud service on a cloud platform. The cloud-based operator interface system collects industrial data from one or more industrial systems via respective cloud gateway devices. A set of predefined operator interface screens are stored on cloud storage associated with the operator interface system, and delivered to authorized Internet-capable client devices upon request. The industrial data received from the cloud gateways can be delivered to the client devices from the cloud platform via the operator interface screens. Additional cloud-side services can correlate and analyzes the industrial data on the cloud platform to facilitate additional reporting, alarming, and notification features.