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 system for supervising operation of at least one machine of an industrial installation or for supervising such operation and actuating the at least one machine based on such supervision, is disclosed. The system comprises a network comprising a server and a plurality of devices forming a computing cluster. At least some devices of the plurality of devices are connectable to a machine of the industrial installation. Each device of the at least some devices comprises: a first processor configured to compute in real-time, with data acquirable from the machine to which the device is connectable, a first processing task for solving a first query; and a second processor configured to share its processing power with the network, and to compute, when assigned by the server, at least one thread of a second processing task for solving a second query. The server is configured to: control the computing cluster; partition the second processing task into a plurality of threads; and assign one or more threads of the plurality of threads to the second processor of at least some devices of the plurality of devices. A device for supervising operation of at least one machine of an industrial installation is also disclosed. An industrial installation is also disclosed, comprising: a plurality of machines; and a network for supervising operation of at least one machine of the plurality of machines or for supervising and actuating the at least one machine, the network comprising a server and a plurality of devices forming a computing cluster.

Automation security in a networked-based industrial controller environment is implemented. Various components, systems and methodologies are provided to facilitate varying levels of automation security in accordance with security analysis tools, security validation tools and/or security learning systems. The security analysis tool receives abstract factory models or descriptions for input and generates an output that can include security guidelines, components, topologies, procedures, rules, policies, and the like for deployment in an automation security network. The validation tools are operative in the automation security network, wherein the tools perform security checking and/or auditing functions, for example, to determine if security components are in place and/or in suitable working order. The security learning system monitors/learns network traffic patterns during a learning phase, fires alarms or events based upon detected deviations from the learned patterns, and/or causes other automated actions to occur.

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 management apparatus acquires backup data from a plurality of devices, and stores the acquired backup data in a database in association with position information of the plurality of devices. The management apparatus restores the backup data included in the database, to the device that is present at a position corresponding to the position information associated with the backup data.

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 diagnostic apparatus includes: a receiver to receive, from a diagnosis target device, context information corresponding to a current operation on the target device and tool information regarding a tool being used for the current operation on the target device, the context information corresponding to the current operation being one of a plurality of items of context information that have been determined by respective types of a plurality of types of operation applicable to the target device; and circuitry to obtain detection information of a physical quantity varying with the current operation on the target device, and to determine a level of degradation of the tool being used, using the detection information and a model corresponding to a combination of the received context information and the received tool information, the model being specified from one or more models respectively corresponding to available combinations of context information and tool information using the received combination of context information and tool information.

Embodiments described herein relate to a system for processing manufacturing data, comprising: an edge device; a cloud platform; a sensing device configured to collect manufacturing data and to provide the collected data to the edge device; wherein the edge device and the cloud platform are each configured to carry out a plurality of data processing functions on the manufacturing data; the system further comprising a resource manager configured to communicate with the edge device and with the cloud platform, wherein the resource manager is further configured to: determine whether each of the plurality of data processing functions is to be carried out at the edge device or at the cloud platform; if it is determined that the plurality of data processing functions is to be carried out at the edge device, instruct the edge device to carry out the plurality of data processing functions; if it is determined that the plurality of data processing functions is to be carried out at the cloud platform, instruct the cloud platform to carry out the plurality of data processing functions; and if it is determined that at least one of the plurality of data processing functions is to be carried out at the edge device and at least one other data processing function is to be carried out at the cloud platform, instruct the edge device to carry out the at least one of the plurality of data processing functions and instruct the cloud platform to carry out the at least one other data processing function.

To provide a trusted, secure, and immutable record of transactions within a process plant, techniques are described for utilizing a distributed ledger in process control systems. The distributed ledger may be maintained by nodes which receive transactions broadcasted from field devices, controllers, operator workstations, or other devices operating within the process plant. The transactions may include process plant data, such as process parameter data, product parameter data, configuration data, user interaction data, maintenance data, commissioning data, plant network data, and product tracking data. The distributed ledgers may also be utilized to execute smart contracts to allow machines such as field devices to transact by themselves without human intervention. In this manner, recorded process parameter values and product parameter values may be retrieved to verify the quality of products. Moreover, regulatory data may be recorded in response to triggering events so that regulatory agencies can review the data.

To provide a trusted, secure, and immutable record of transactions within a process plant, techniques are described for utilizing a distributed ledger in process control systems. The distributed ledger may be maintained by nodes which receive transactions broadcasted from field devices, controllers, operator workstations, or other devices operating within the process plant. The transactions may include process plant data, such as process parameter data, product parameter data, configuration data, user interaction data, maintenance data, commissioning data, plant network data, and product tracking data. The distributed ledgers may also be utilized to execute smart contracts to allow machines such as field devices to transact by themselves without human intervention. In this manner, recorded process parameter values and product parameter values may be retrieved to verify the quality of products. Moreover, regulatory data may be recorded in response to triggering events so that regulatory agencies can review the data.