A software defined distributed control system (SDCS) in a process plant includes an application layer that includes a plurality of containers instantiated in a data cluster. Each of the containers is an isolated execution environment executing within the local operating system of a respective computing node. The containers cooperate to facilitate execution of a control strategy in the SDCS, and includes a hyper converged infrastructure (HCI) operating across the data cluster, which HCI is configured to communicate with the application layer via an adapter service. The HCI includes software-defined (SD) compute resources, SD storage resources, SD networking resources, and an orchestrator service. The orchestrator service is programmed to configure a first container to include a service executing within the first container. It also assigns the first container to execute on an available hardware resource to control a plurality of field devices operating in the process plant.

The present disclosure relates to a method for parameterizing an automation field device which is communicatively connected to a server, having the following steps: initiating the method by transmitting a command to parameterize the field device on the server; transmitting identification information of the field device to the server; ascertaining a digital image of the field device stored on the server using the transmitted identification information, said digital image containing configuration settings of the field device and measurement location-relevant information and being designed to reproduce the behavior of the field device in a simulated or emulated manner; generating and proposing a parameter set for the field device using the field device information; selecting and confirming the proposed parameter set by a user; and transmitting the confirmed parameter set to the field device and parameterizing the field device using the transmitted parameter set.

An embedded system has a data processing apparatus that executes program code and a sequencing controller for switching components of the embedded system on and off, the data processing apparatus and the sequencing controller connected to one another via an individual control signal line, and the sequencing controller arranged to either switch off or restart the embedded system on the basis of a temporal profile of a control signal received via the control signal line.

A controller for building equipment in a building management system, the controller including a processing circuit configured to receive a field signal from the building equipment on an input port of the controller, determine a type of the field signal, and update a control logic comprising instructions for reading the field signal by tagging within the control logic the input port with the determined type of the field signal.

The disclosure extends to methods, systems, and computer program products for generating and optimizing irrigation protocols that are in compliance with municipal restrictions. The disclosure also extends to methods, systems and computer program products for providing automated irrigation.

A method and a system facilitate remote commissioning of workstations for controlling, maintaining, and/or configuring process control field devices in a process control plant. Using a configuration workstation coupled to the workstation by a communication network, a user may specify a configuration for the workstation in software and, upon selecting the workstation for commissioning, can effect configuration of the workstation, according to the specified configuration, remotely from the configuration workstation. Effecting configuration of the workstation may include installing/updating an operating system, installing/updating an operator, maintenance, or configuration interface application, and/or installing/updating a process plant configuration. Upon completion of the configuration, the workstation is operable to communicate with a process controller to implement control, maintenance, and/or configuration of the process control plant.

The present disclosure relates to a method for improving the measuring performance of a field device having the following steps: a multiplicity of field devices are configured using a configurations tool; the configuration data and environmental conditions of the field devices at the respective measuring positions are stored in a central data memory as training data, the training data are made available to an adaptive computing program which uses at least one artificial intelligence method; current information relating to the particular application and the environmental conditions at the measuring position of the field device are made available to the adaptive computing program; on the basis of the current information, the adaptive computing program provides the field device to be configured with configuration data on the basis of the multiplicity of training data, which configuration data are matched to the particular application taking into account the environmental conditions.

The present disclosure relates to a method for improving the measuring performance of a field device having the following steps: a multiplicity of field devices are configured using a configurations tool; the configuration data and environmental conditions of the field devices at the respective measuring positions are stored in a central data memory as training data, the training data are made available to an adaptive computing program which uses at least one artificial intelligence method; current information relating to the particular application and the environmental conditions at the measuring position of the field device are made available to the adaptive computing program; on the basis of the current information, the adaptive computing program provides the field device to be configured with configuration data on the basis of the multiplicity of training data, which configuration data are matched to the particular application taking into account the environmental conditions.

A method and a system facilitate remote commissioning of workstations for controlling, maintaining, and/or configuring process control field devices in a process control plant. Using a configuration workstation coupled to the workstation by a communication network, a user may specify a configuration for the workstation in software and, upon selecting the workstation for commissioning, can effect configuration of the workstation, according to the specified configuration, remotely from the configuration workstation. Effecting configuration of the workstation may include installing/updating an operating system, installing/updating an operator, maintenance, or configuration interface application, and/or installing/updating a process plant configuration. Upon completion of the configuration, the workstation is operable to communicate with a process controller to implement control, maintenance, and/or configuration of the process control plant.

A controller for building equipment in a building management system, the controller including a processing circuit configured to receive a field signal from the building equipment on an input port of the controller, determine a type of the field signal, and update a control logic comprising instructions for reading the field signal by tagging within the control logic the input port with the determined type of the field signal.