Abstract: An industrial integrated development environment (IDE) includes analytic features that generate control project telemetry data based on analysis of a control system design and uses this project telemetry data as the basis for control system design guidance and recommendations. The IDE system can analyze the control system design and identify industrial devices use by the control project, device features that are utilized by the control project, resource utilizations, and other such project telemetry. The IDE system can generate recommendations for improving the control system design based on this project telemetry. The project telemetry data can also be provided to product vendors, offering insights into how the vendors' products are being used by end customers.

Abstract: 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. For access to the content, a user may be initially authenticated in a first manner, such as by multi-factor authentication. Thereafter, or for a certain time or location, the user may be authenticated by a reduced number of factors, such as single-factor authentication. The authentication may be used to deliver the visualizations based on policies of a visualization manager, such as the user identification, the user role, the user location, and so forth. The reduced factor authentication allow for users to freely move and view visualizations on any available device, or at different locations, and so forth, but still based on the policies.

Abstract: 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. For access to the content, a user may be initially authenticated in a first manner, such as by multi-factor authentication. Thereafter, or for a certain time or location, the user may be authenticated by a reduced number of factors, such as single-factor authentication. The authentication may be used to deliver the visualizations based on policies of a visualization manager, such as the user identification, the user role, the user location, and so forth. The reduced factor authentication allow for users to freely move and view visualizations on any available device, or at different locations, and so forth, but still based on the policies.

Abstract: 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. For access to the content, a user may be initially authenticated in a first manner, such as by multi-factor authentication. Thereafter, or for a certain time or location, the user may be authenticated by a reduced number of factors, such as single-factor authentication. The authentication may be used to deliver the visualizations based on policies of a visualization manager, such as the user identification, the user role, the user location, and so forth. The reduced factor authentication allow for users to freely move and view visualizations on any available device, or at different locations, and so forth, but still based on the policies.

Abstract: 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. For access to the content, a user may be initially authenticated in a first manner, such as by multi-factor authentication. Thereafter, or for a certain time or location, the user may be authenticated by a reduced number of factors, such as single-factor authentication. The authentication may be used to deliver the visualizations based on policies of a visualization manager, such as the user identification, the user role, the user location, and so forth. The reduced factor authentication allow for users to freely move and view visualizations on any available device, or at different locations, and so forth, but still based on the policies.

Abstract: 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. For access to the content, a user may be initially authenticated in a first manner, such as by multi-factor authentication. Thereafter, or for a certain time or location, the user may be authenticated by a reduced number of factors, such as single-factor authentication. The authentication may be used to deliver the visualizations based on policies of a visualization manager, such as the user identification, the user role, the user location, and so forth. The reduced factor authentication allow for users to freely move and view visualizations on any available device, or at different locations, and so forth, but still based on the policies.

Abstract: 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.

Abstract: 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.

Abstract: A human interface technique is disclosed for industrial automation systems. The technique allows for reduced data set visualizations to be created for components that may include identifying information, operational data, real or near real time data, and so forth, such as in the form of a faceplate or brief summary. The content may be made available to users on interface devices, such as thin client devices. The access to the content may be distributed based upon relevant criteria that are stored as policies in a visualization manager, such as user, location, device, event triggers, and so forth.

Abstract: 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. For access to the content, a user may be initially authenticated in a first manner, such as by multi-factor authentication. Thereafter, or for a certain time or location, the user may be authenticated by a reduced number of factors, such as single-factor authentication. The authentication may be used to deliver the visualizations based on policies of a visualization manager, such as the user identification, the user role, the user location, and so forth. The reduced factor authentication allow for users to freely move and view visualizations on any available device, or at different locations, and so forth, but still based on the policies.