An edge computing device is provided that includes a plurality of input electrodes that are communicatively coupled to one or more communication channels of a programmable logic controller that implements control logic to control a controlled device. The edge computing device furthers include a processor configured to, at a training time, receive signals via the plurality of input electrodes, detect inputs to the one or more communication channels and outputs from the one or more communication channels of the programmable logic controller, generate a set of training data based on the detected inputs and outputs of the programmable logic controller, and train an artificial intelligence model using the generated set of training data. The processor is further configured to, at a run-time, emulate the control logic of the programmable logic controller using the trained artificial intelligence model.

An edge computing device is provided that includes a plurality of input electrodes that are communicatively coupled to one or more communication channels of a programmable logic controller that implements control logic to control a controlled device. The edge computing device furthers include a processor configured to, at a training time, receive signals via the plurality of input electrodes, detect inputs to the one or more communication channels and outputs from the one or more communication channels of the programmable logic controller, generate a set of training data based on the detected inputs and outputs of the programmable logic controller, and train an artificial intelligence model using the generated set of training data. The processor is further configured to, at a run-time, emulate the control logic of the programmable logic controller using the trained artificial intelligence model.

For equipment tutorial review audit, a processor synchronizes a plurality of equipment tutorials to a mobile device. Each equipment tutorial corresponds to an equipment instance of a plurality of equipment instances of specific equipment and each equipment instance corresponds to an equipment reference code. The processor receives a first equipment reference code for a first equipment instance at the mobile device. The processor retrieves a first equipment tutorial of the plurality of equipment tutorials that is indexed to the first equipment reference code at the mobile device. The processor displays the first equipment tutorial on the mobile device. In addition, the processor records a review of the first equipment tutorial by an operator to an audit report.

For equipment tutorial review audit, a processor synchronizes a plurality of equipment tutorials to a mobile device. Each equipment tutorial corresponds to an equipment instance of a plurality of equipment instances of specific equipment and each equipment instance corresponds to an equipment reference code. The processor receives a first equipment reference code for a first equipment instance at the mobile device. The processor retrieves a first equipment tutorial of the plurality of equipment tutorials that is indexed to the first equipment reference code at the mobile device. The processor displays the first equipment tutorial on the mobile device. In addition, the processor records a review of the first equipment tutorial by an operator to an audit report.

To provide a programmable display that enables content for coping with an event that has occurred to be promptly used. A programmable display that can communicate with a control device that controls production equipment includes a display; a storage device that stores a plurality of pieces of content that can be used by the programmable display; a detection part that detects a predetermined event that occurs in the production equipment; a learning part that learns a probability that each of 5 the plurality of pieces of content will be used under a condition that the predetermined event occurs by monitoring content used by the programmable display when the predetermined event is detected; and a specification part that specifies content having a high possibility of being used by the programmable display among the plurality of pieces of content based on the learned probability when the predetermined event is detected.

To provide a programmable display that enables content for coping with an event that has occurred to be promptly used. A programmable display that can communicate with a control device that controls production equipment includes a display; a storage device that stores a plurality of pieces of content that can be used by the programmable display; a detection part that detects a predetermined event that occurs in the production equipment; a learning part that learns a probability that each of 5 the plurality of pieces of content will be used under a condition that the predetermined event occurs by monitoring content used by the programmable display when the predetermined event is detected; and a specification part that specifies content having a high possibility of being used by the programmable display among the plurality of pieces of content based on the learned probability when the predetermined event is detected.

In order to facilitate creation of a controller program and a UI program in which variables match each other, this program development support unit is provided with: a calculation unit and a program development support program which implement a sequence program editing unit, a UI editing unit, and a copy function unit; a display unit; and an operation input unit. The copy function unit detects selection, through the input operation unit, of an element of the sequence program and movement to an editing screen in a user interface program, and causes elements in the user interface program that correspond to elements in the sequence program to be reflected on the editing screen of the user interface program. The copy function unit detects the type of the sequence program being edited, and, depending on the type of sequence program, determines the type of elements of the user interface program.

The present disclosure is directed to systems, methods and devices for facilitating object-based cross-domain industrial automation control. An object library comprising a plurality of objects may be maintained. One or more of the objects may represent physical counterparts for use in an industrial automation process. Each object of the plurality of objects in the object library may have at least one property that an automated control device operation can be programmed to act on. Each object of the plurality of objects may also have at least one property that a human machine interface component can utilize in generating display elements corresponding to the objects for display on the human machine interface. When modifications to objects in the object library are received, those modifications may be automatically deployed and incorporated in controller logic and HMI graphics and control.

The present disclosure is directed to systems, methods and devices for facilitating object-based industrial automation control. An automation control library comprised of a plurality of objects may be maintained in association with one or more industrial automation applications. Code defining the execution of an industrial automation process may be received. A plurality of objects in the object library for implementing the industrial automation control process may be identified. The plurality of identified objects may be matched to one or more hardware components based on one or more operational requirements included in the code, and available hardware resources for performing the automation control process.

The present disclosure is directed to systems, methods and devices for facilitating object-based industrial automation control. An automation control library comprised of a plurality of objects may be maintained in association with one or more industrial automation applications. Code defining the execution of an industrial automation process may be received. A plurality of objects in the object library for implementing the industrial automation control process may be identified. The plurality of identified objects may be matched to one or more hardware components based on one or more operational requirements included in the code, and available hardware resources for performing the automation control process.