An edge gateway system securely delivers and exposes data generated by and/or related to a process plant for consumption by external systems, and includes a field-facing component that stores interest lists indicating the particular data that is allowed to be exposed by the field-facing component. Each interest list is defined (e.g., manually and/or automatically) in accordance with an exposable data type system extracted from (in some cases, multiple different) configurations of the process plant, and may include multiple types of data (e.g., control, I/O, diagnostic, device, historical, etc.) that collectively represent a particular named entity of the plant. The field-facing component obtains the process plant-related data indicated by the interest lists, and provides the obtained field content data to an edge-facing component of the edge gateway system for exposure to external systems, for example, by streaming and/or publishing the obtained data to the edge-facing component.

A method provides a synchronization cycle for updating changing component property values at a client and a gateway system. When the client receives a change to a value, it saves the change as a pending value in association with an existing value for the component property. The client sends a set of changes and an identifier to the gateway system. The gateway system updates its component property values accordingly. The gateway system accumulates changes to property values including changes from the client and other changes received via data bindings or other methods. The gateway system sends a message to the client including the accumulated property value changes and the identifiers associated with client-provided value changes that have been applied. The client updates its component property values according to the accumulated changes and removes references to pending values that are associated with identifiers sent back by the gateway system.

A scalable industrial data ingestion and analysis architecture integrates and collects data from multiple diverse sources at one or more industrial facilities. Data sources can include plant-level industrial devices and higher-level business systems. The data can be integrated and collected from multiple sources at an on-premise edge or gateway device, which sends the data to event queues on the cloud platform. The data queues orchestrate and store the data on cloud storage, and an analytics layer performs business analytics or other types of analysis on the stored data to produce various outcomes. Similar analytic platforms can also be implemented at the device level, and analytic functions can be scaled between the device level and higher levels in accordance with the scope of a given analytic function.

The invention includes a method for monitoring an automated plant having at least one field device, wherein a first cloud-capable database, having a first data configuration and containing field device related data including measured values, parameter values, identification data, and diagnostic status of the field device, wherein a second cloud-capable database having a second data configuration incompatible with the first data configuration, and wherein the first and the second data configurations define file formats of the data, the method comprises: retrieving at least a part of the data contained in the first database by means of a data conversion unit, especially an edge device or a gateway; converting the retrieved data into a format conforming to the second data configuration; and storing the converted data in the second database. The invention further includes a data conversion unit, which is embodied for executing the method of the invention.

A method provides a synchronization cycle for updating changing component property values at a client and a gateway system. When the client receives a change to a value, it saves the change as a pending value in association with an existing value for the component property. The client sends a set of changes and an identifier to the gateway system. The gateway system updates its component property values accordingly. The gateway system accumulates changes to property values including changes from the client and other changes received via data bindings or other methods. The gateway system sends a message to the client including the accumulated property value changes and the identifiers associated with client-provided value changes that have been applied. The client updates its component property values according to the accumulated changes and removes references to pending values that are associated with identifiers sent back by the gateway system.

A method for delivering a message between components in a project using a GUI through which users may be able to monitor and control industrial processes. Each component has graphical features and/or behavioral features. The method comprises steps of: receiving first definition input to define a message handler associated with a first component in the project for receiving messages for the first component and receiving second definition input to define a messenger associated with a second component in the project for sending messages. The method includes, in response to receiving a payload input via the messenger associated with the second component: identifying components having associated message handlers with a message type definition that matches a message type argument of the messenger and a scope definition that matches a scope argument of the messenger, delivering the payload, and executing script implementations of the message handlers.

A smart gateway platform leverages pre-defined industrial expertise to identify limited subsets of available industrial data deemed relevant to a desired business objective, and to collect and model this relevant data to apply useful constraints on subsequent artificial intelligence or machine learning analytics applied to the data. This approach can reduce the data space to which AI analytics are applied, and assist data analytic systems to more quickly derive valuable insights and business outcomes. In some embodiments, the smart gateway platform can operate within the context of a multi-level industrial analytic system, feeding pre-modeled data to one or more AI or machine learning systems executing on one or more different levels of an industrial enterprise.

A remote access gateway configurable control system. There may be a series of control commands to set or adjust a gateway device's running parameters and modify the behavior of the device or start process action. There may be configuration commands for remote control of the device and server commands for unattended devices.

A scalable industrial data ingestion and analysis architecture integrates and collects data from multiple diverse sources at one or more industrial facilities. Data sources can include plant-level industrial devices and higher-level business systems. The data can be integrated and collected from multiple sources at an on-premise edge or gateway device, which sends the data to event queues on the cloud platform. The data queues orchestrate and store the data on cloud storage, and an analytics layer performs business analytics or other types of analysis on the stored data to produce various outcomes. Similar analytic platforms can also be implemented at the device level, and analytic functions can be scaled between the device level and higher levels in accordance with the scope of a given analytic function.

A method for delivering a message between components in a project using a GUI through which users may be able to monitor and control industrial processes. Each component has graphical features and/or behavioral features. The method comprises steps of: receiving first definition input to define a message handler associated with a first component in the project for receiving messages for the first component and receiving second definition input to define a messenger associated with a second component in the project for sending messages. The method includes, in response to receiving a payload input via the messenger associated with the second component: identifying components having associated message handlers with a message type definition that matches a message type argument of the messenger and a scope definition that matches a scope argument of the messenger, delivering the payload, and executing script implementations of the message handlers.