Systems and methods are disclosed for providing an icon for display by a user interface from an automation device that the icon depicts. Specifically, present embodiments are directed to methods and systems capable of detecting, with processing circuitry of an automation device, a shell program on a workstation via an automation control network. Further, embodiments are capable of providing icon configuration data to the shell program from the automation device, wherein the configuration data controls characteristics of an icon representative of the automation device for display in a visualization of the workstation.

A communications application that acts as a data server between one or more industrial devices and a client-side application is capable of detecting and uploading device description files from the industrial devices themselves. Upon discovery of an industrial device communicatively connected to a client device's communication port, the communications application determines whether a device description file for the discovered device is registered. If no device description file is registered for the industrial device, or if the discovered file is newer than a previously registered file, the communications application initiates an upload of the device description file from the industrial device if the file is stored on the device. Upon completion of the upload, the device description file is registered, thereby allowing the communications application to display information about the device and to manage data exchange between the industrial device and the client-side application.

A distributed event engine for controlling distributed devices of a building management system executes as discrete event processes on distributed devices with sufficient computing power and availability. The distributed devices communicate via a peer-to-peer network and a distributed ledger (e.g. blockchain). An event engine configuration module assigns the event processes to the distributed devices based on device and capability information published to the distributed ledger. An edge device scoring process executing on the distributed devices executing the event processes determines which other distributed devices to control based on which devices are compatible with local event processes and/or electrically and geographically close, resulting in decreased latency, vulnerability to hacking and corruption of data.

A distributed transaction ledger (e.g. a blockchain) is used to track and validate changes in a building management system such as a building automation system, access control system, or security/surveillance system. The building management system 100 includes a series of distributed devices connected to a peer-to-peer validation network. The distributed devices generate transaction information during normal operation and broadcast the transaction information to the validation network. The validation network maintains a distributed transaction ledger for the building management system, for example, by validating the transaction information and distributing the transaction information across the validation network according to consensus criteria to be stored locally in multiple instances by nodes of the validation network, which can be dedicated computing devices and/or validator distributed devices. The distributed devices perform building management functions based on validated transaction information retrieved from the transaction ledger.

Techniques for determining device-specific information such as commissioning data, location information, images, and other data descriptive of a process device installed in a plant include obtaining the device-specific information at a local device during the process device's commissioning. Based on this information, the local device determines the relative order of the process device within a process flow, and may determine a process element alignment map indicating the activation order of a plurality of process elements within the flow. A user may modify the map at the local device. The map is transmitted to a process control big data network for use in discovery and learning analytics. The device-specific information and/or the map may be utilized to generate, at the local device, representations/views of the process flow, which may include real-time operational data. A user may zoom in or out on these views for more or less detail.

The invention relates to a field device for connection to a programmable logic controller having hardware comprising a processing unit, a memory and a data interface for communication with the programmable logic controller. The field device is characterized in that it is configured to receive compatibility information from the programmable logic controller by means of the data interface, wherein a firmware having a plurality of functions for operating the field instrument is stored in the memory, wherein the processing unit is configured to release a subset of the functions of the firmware for execution in dependence on the compatibility information to produce a behavior of the field device which is adapted to the compatibility information of the programmable logic controller.

An electric drive system has a multiplicity of electrical controllers, the electrical controllers each having a nonvolatile memory that is configured to store controller data of the respective controller, and a bus system. The multiplicity of electrical controllers are able to be coupled to one another by way of the bus system in order to exchange data. The electrical controllers are each configured to store controller data of other controllers in their memory.

A machine includes a first device, a second device and at least one controller. The first device includes a first motor located at a first address and associated with first operating characteristic data. The second device includes a second motor located at a second address and associated with second operating characteristic data that is substantially the same as the first operating characteristic data. The at least one controller includes a computing processor and a computer readable storage medium, and is configured to communicate with the first and second devices, and store the first and second operating characteristic data while associating the first and second operating characteristic data with the first and second addresses. The exchange of at least one of the first and second motors causes an exchange of the associated one of the first and second operating characteristic data.

Systems and methods are disclosed for providing an icon for display by a user interface from an automation device that the icon depicts. Specifically, present embodiments are directed to methods and systems capable of detecting, with processing circuitry of an automation device, a shell program on a workstation via an automation control network. Further, embodiments are capable of providing icon configuration data to the shell program from the automation device, wherein the configuration data controls characteristics of an icon representative of the automation device for display in a visualization of the workstation.

A distributed logic control apparatus is usable to control a system and includes a plurality of enhanced intelligent devices and a network protocol control that are connected with a data network. The intelligent devices each have a processor apparatus and an algorithm operable thereon that enables each intelligent device to control a corresponding part of the system. Other algorithms on the intelligent devices provide an advantageous setup operation that enables the intelligent devices to cooperate with one another in a self-setup operation.