Method and system for engineering with sequence libraries are provided. A first set of engineering data is defined for a first engineering project to generate a first sequence library for the first engineering project, independently of one or more lower level engineering projects for configuring one or more field control systems. The sequence library assignment process is to assign the first sequence library to the one or more lower level engineering projects simultaneously to generate one or more first assigned sequence libraries for the one or more lower level engineering projects for configuring the one or more field control systems. The parallel configuration process is to perform a parallel configuration process which configures the first sequence library for the first engineering project, while assigning the first sequence library to another one or more lower level engineering projects.

An industrial integrated development environment (IDE) provides a development framework for designing, programming, and configuring multiple aspects of an industrial automation system using a common design environment and data model. Projects creating using embodiments of the IDE system can be built on an object-based model rather than, or in addition to, a tag-based architecture. To this end, the IDE system can support the use of automation objects that serve as building blocks for this object-based development structure. These automation objects represent corresponding physical industrial assets and have associated programmatic attributes relating to those assets. Automation objects can be maintained in shared libraries that can be referenced by system projects. The IDE system can notify projects that reference these automation objects of updates to the object libraries, including edits to existing objects or addition of new objects.

A method of configuring an HVAC system uses a Specifier Library including specifier options for a plurality of HVAC components and a Shapes Library including a plurality of representative Shapes. An engineering tool accepts a selection from a user of an HVAC component and automatically loads one or more Shapes from the Shapes Library into a configuration project, the one or more Shapes corresponding to the user-selected HVAC component. The engineering tool displays one or more options for the selected HVAC component and accepts selections of one or more options by the user. The engineering tool automatically loads additional Shapes from the Shapes Library into the configuration project, the additional Shapes corresponding to one or more of the accepted selections of the one or more options and combines the loaded Shapes within the configuration project to automatically generate a graphical representation of the HVAC system.

Present embodiments include an automation control system including one or more processors and memories with an application stored on the one or more memories and implemented by the one or more processors. The application includes an interface configured to communicate with automation devices via a communication subsystem. Further, the application includes an operation environment, a programming environment, and an emulation environment. The programming environment is configured to generate device elements corresponding to the automation devices within the operation environment in which the device elements are configured to functionally interact with the automation devices. The emulation environment is configured to automatically host an emulation model of the automation devices based on the device elements generated within the operation environment.

A creation device for creating an instruction for controlling a second industrial machine with a first industrial machine to execute a predetermined operation includes processing circuitry that obtains templates corresponding to operations respectively, control display of a template corresponding to an operation selected from the operations in a creation screen, and create an instruction for the operation selected from the operations based on the operation with respect to the template displayed in the creation screen.

A packaging system for high flexibility and speed box-last packaging comprises one or more dimensional scanning sensors that are configured to scan a group of one or more target products that are to be boxed and gather dimension information describing physical dimensions of the group of one or more target products. The system also comprises one or more packaging-production machines that are configured to generate custom-made packaging templates that conform to a pre-determined set of packaging template types. Additionally, the system comprises a packaging template buffer that comprises physically divided sections that contain multiple packaging templates selected from the pre-determined set of packaging template types that are generated by the one or more packaging-production machines. Each of the packaging templates are organized within the physically divided section based upon packaging template type.

A creation device for creating an instruction for controlling a second industrial machine with a first industrial machine to execute a predetermined operation includes processing circuitry that obtains templates corresponding to operations respectively, control display of a template corresponding to an operation selected from the operations in a creation screen, and create an instruction for the operation selected from the operations based on the operation with respect to the template displayed in the creation screen.

Systems and methods of a Hierarchical Smart Asset Control Application development and Integrated Smart Asset Control System optimization are disclosed. In various embodiments, the system may develop a Hierarchical Asset Control Application and corresponding control hardware requirements. This can be used to create an Integrated Smart Asset Control System in order execute various processes for a set of equipment elements. The smart assets associated with the system may utilize intelligent agents to balance operational constraints and operational objects in order to determine real-time optimized operational parameters for a process and implement the appropriate controls to facilitate achieving the improved operational objectives.

A method of configuring an HVAC system uses a Specifier Library including specifier options for a plurality of HVAC components and a Shapes Library including a plurality of representative Shapes. An engineering tool accepts a selection from a user of an HVAC component and automatically loads one or more Shapes from the Shapes Library into a configuration project, the one or more Shapes corresponding to the user-selected HVAC component. The engineering tool displays one or more options for the selected HVAC component and accepts selections of one or more options by the user. The engineering tool automatically loads additional Shapes from the Shapes Library into the configuration project, the additional Shapes corresponding to one or more of the accepted selections of the one or more options and combines the loaded Shapes within the configuration project to automatically generate a graphical representation of the HVAC system.

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.