A method for identifying imbalances in facility operations. The method includes determining an existence of an imbalance between a first volume of a component at a first point in the facility and a second volume of the component at a second point in the facility, calculating a probability likelihood of the imbalance being caused by one or more likely errors of a set of known likely errors, determining an impact magnitude on the imbalance of each of the one or more likely errors, and assigning an importance ranking to each of the one or more likely errors based on the probability likelihood and the impact magnitude.

A building monitoring system, wherein the system comprises an HVAC monitor, which comprised a condensing unit connector, an air handler connector, a thermostat connector and a control module, a wetness detector; and a communicator. The communicator accesses a location of the building monitoring system and selectively communicates with a technician based at least in part on the location. A monitor system for use with an existing HVAC unit, wherein the HVAC unit has a condenser or furnace, an air handler, and a thermostat, the HVAC monitor system comprising at least one condenser or furnace sensor, at least one air handler sensor and at least one control module. A wetness monitor system, comprising at least one wetness detector connected to a control, wherein the control is also connected to a network and the network is connected to a flow shutoff valve. A method of monitoring a location for wetness comprising detecting wetness through at least one wetness detector, monitoring the state of a shutoff valve.

The present disclosure relates to a portable production machine, a mobile terminal, a production system having a portable production machine and a mobile terminal, and a method for capturing data. According to aspects of the disclosure, on the production machine - which can be, for example, a welding machine or cutting machine - production data is automatically captured, organized into data sets, and converted into data set images, which are displayed on a display device. The displayed data set images are captured with a mobile terminal and transmitted to a central server. As a result, a plurality of production machines can be incorporated into a data system without the need for any changes to the hardware in the production machines.

A system configuration information management device includes a storage device configured to store therein control system identification information, component identification information, and version information in association with one another. The control system identification information identifies a control system. The component identification information identifies each of a plurality of components composing the control system. The version information indicates a version of an element of each of the components having at least hardware.

Tools and techniques are described to automate commissioning of physical spaces. Controllers have access to databases of the devices that are controlled by them, including wiring diagrams and protocols, such that the controller can automatically check that each wire responds correctly to stimulus from the controller. Controllers also have access to databases of the physical space such that they can check that sensors in the space record the correct information for device activity, and sensors can cross-check each other for consistency. Once a physical space is commissioned, incentives can be sought based on commissioning results.

The present disclosure is directed to systems, methods and devices for assisting with testing automated industrial process routines. The addition of a software automation object to a test execution user interface may be received. The software automation object may be added to the test execution user interface from a software object library comprising a plurality of software objects. Each of the software automation objects may include an automated control device layer, a human machine interface layer, and a testing layer. A request to initiate an operational test of the software automation object in the test execution user interface may be received. Upon receiving the request, the operational test may be executed, and test results for the operational test of the automation software object may be displayed on the test execution user interface.

A method for operating a control system of a technical installation, wherein an operator station server transfers visualization information to an operator station client, and the operator station client generates a graphical presentation for an operator via the visualization information, where the method includes adjusting the graphical presentation via the operator station client in response to an instruction of the operator to the operator station client, transmitting the information regarding the adjustment of the graphical presentation to the operator station server via the operator station client, recording the information received from the operator station client regarding the adjustment of the graphical presentation in a memory of the operator station server, transmitting the information regarding the adjustment of the graphical presentation to the engineering station server via the operator station server, and presenting the information regarding the adjustment of the graphical presentation to a project engineer of the technical installation.

A controller diagnostic method includes transmitting a Diagnostic Trouble Code (DTC) request signal to a plurality of controllers; receiving a first frame of the plurality of controllers in response to the DTC request signal; delaying a transmission time of a flow control signal and transmitting the delayed flow control signal to the plurality of controllers; and receiving a DTC information by at least one consecutive frame provided by the plurality of controllers in response to the delayed flow control signal.

A screen image generation device for generating a screen image indicating a state of a facility in a production plant is provided which ensures a real-time property of a management screen image needed in actual production plants and reduce required levels of making a network faster in speed and wider in bandwidth. A server functioning as the device performs first acquisition of regularly acquiring first data transmitted from a sensor and concerning the facility at intervals of a first time, second acquisition of regularly acquiring second data transmitted from a controller and concerning the facility at intervals of a second time shorter than the first time, third acquisition of acquiring, in real time, an alert irregularly transmitted from the controller and concerning the facility, and generation of generating the management screen image indicating the state of the facility in accordance with the first data, the second data, and the alert.

Embodiments include a server system including logic of an edge computing device. A network includes a cloud platform able to receive state change events from a state module, and execution of the program logic results in process steps of a method that include transmitting a plurality of attributes from the cloud platform to the at least one edge computing device, where the plurality of attributes can be associated with a device of a distributed environment coupled to the network. A further step includes receiving from the state module, by the edge computing device, current state data of the device, and a subsequent step includes performing a comparison based on a set of rules of the attributes, by the edge computing device, of the current state data. Further, based on the comparison, the method includes sending, by the edge computing device, an update to a human-machine-interface module.