Automation windows for robotic process automation (RPA) for attended or unattended robots are disclosed. A child session is created and hosted as a window including the user interfaces (UIs) of applications of a window associated with a parent session. Running multiple sessions allows a robot to operate in this child session while the user interacts with the parent session. The user may thus be able to interact with applications that the robot is not using or the user and the robot may be able to interact with the same application if that application is capable of this functionality. The user and the robot are both interacting with the same application instances and file system. Changes made via the robot and the user in an application will be made as if a single user made them, rather than having the user and the robot each work with separate versions of the applications and file systems.

Provided herein are system, method, and/or computer program product embodiments, and/or combinations and sub-combinations thereof for seamlessly adding and removing form fields from a form. A form engine may receive a request to generate a form. The form engine may render a screen to populate the form with form fields and organize the form fields by sections. Form fields may be added to a selected section by toggling a button corresponding to a given form field, from unselected to selected. Form fields may be removed from any given section by toggling a button corresponding to a given form field from selected to unselected.

Automation windows for robotic process automation (RPA) for attended or unattended robots are disclosed. A child session is created and hosted as a window including the user interfaces (UIs) of applications of a window associated with a parent session. Running multiple sessions allows a robot to operate in this child session while the user interacts with the parent session. The user may thus be able to interact with applications that the robot is not using or the user and the robot may be able to interact with the same application if that application is capable of this functionality. The user and the robot are both interacting with the same application instances and file system. Changes made via the robot and the user in an application will be made as if a single user made them, rather than having the user and the robot each work with separate versions of the applications and file systems.

Automation windows for RPA for attended or unattended robots are disclosed. A child session is created and hosted as a window including the UIs of applications of a window associated with a parent session. Running multiple sessions allows a robot to operate in this child session while the user interacts with the parent session. The user may thus be able to interact with applications that the robot is not using or the user and the robot may be able to interact with the same application if that application is capable of this functionality. The user and the robot are both interacting with the same application instances and file system. Changes made via the robot and the user in an application will be made as if a single user made them, rather than having the user and the robot each work with separate versions of the applications and file systems.

Exemplified herein is a graphical user interface for an industrial automation system that provides, in a single aggregated and eloquent view, a configuration workspace to discover and present configuration details of control components within an industrial automation system. These components may include industrial controllers, programmable logic controllers (PLCs), supervisory control and data acquisition (SCADA) systems, programmable automation controllers (PACs), and the like, which have modules (as well as submodules) connected thereto. Among other things, the configuration workspace enables a holistic view of identified hardware configuration and the modular reconciliation and troubleshoot of the network device and module configurations.

System to design and/or update programs for the operator interface of machines and/or plants that comprises at least one first calculation device dedicated to the management of a machine and/or plant, which contains at least one application program to manage the human-machine interface (HMI) of the machine and/or plant, and a second calculation device to execute a software, or development environment, to create a project file, wherein on the first calculation device and on the second calculation device respective communication programs are installed, suitable to transfer the project to the first calculation device, where the application program for the management of the HMI interface displays the project by means of a suitable OPC UA standard information model, by means of which it is possible to make modifications to the project dynamically, without interrupting the execution of the human-machine interface program, and so that every modification to the project, and therefore to the human-machine interface program, is immediately displayed and used by the human-machine interface.

A system for configuration and control of a device includes a device processor includes at least two processing cores. Device firmware executes on a first processing core and a device-based engineering server executes on a second processing core. A web server running on the device-based engineering server includes a webApp providing web-based functionality for configuration and control of the device. The webApp is downloaded from the web server to the user's browser. A hypervisor manages communication between the device firmware and the device-based engineering server. A communication path established in the hypervisor for communicating a configuration or control instruction to the device firmware. The configuration or control instruction is initiated by a user via a web browser. The users web browser may run on a computer workstation that does not otherwise meet processing requirements of an engineering system for the device.

A method and a trajectory generator are provided which automatically generate a trajectory, which is converted into control signals (sd) for the purpose of controlling a drive system. The control signals (sd) are used to control actuators of the drive system to carry out the movement according to the calculated trajectory. The method is implemented on a microcontroller (μC) and has a very short runtime and a low memory requirement.

An industrial integrated development environment (IDE) comprises a development interface that affords a user a great deal of control over the editing tools, workspace canvases, and project information rendered at a given time. The industrial IDE system automatically filters the tools, panels, and information available for selection based on a current project development task, such that a focused subset of editing tools relevant to a current development task or context are made available for selection while other tools are hidden. The development interface also allows the user to selectively render or hide selected tools or information from among the relevant, filtered set of tools. This can reduce or eliminate unnecessary clutter and aid in quickly and easily locating and selecting a desired editing function. The IDE's development interface can also conform to a structured organization of workspace canvases and panels that facilitates intuitive workflow.

A light engineering client graphical user interface (GUI) for monitoring and troubleshooting an industrial automation system via an electronic display, includes an alarm listing window and an alarm details window. The GUI presents, in the alarm listing window, an alarm listing associated with an alarm based a condition of an industrial automation device, presents, in the alarm details window, detailed information for the alarm, presents, in the alarm details window, a portion of code associated with the industrial automation device, receives an input making modifications to the portion of code associated with the industrial automation device, and modifies the portion of code associated with the industrial automation device based on the received input.