A system and method for managing function blocks within a process control system for a process plant includes accessing an initial cause and effect matrix (CEM) having a set of causes and a set of effects. The system and method may then define a set of related groups within the initial CEM including: (i) accessing a set of rules associated with the set of related groups, (ii) identifying a portion of the set of causes that are related to a portion of the set of effects according to the set of rules and based on at least a portion of the corresponding cause-effect pairs, and (iii) rearranging the portion of the set of causes and the portion of the set of effects such that the portion of the corresponding cause-effect pairs are rearranged.

A system and method of configuring monitor blocks and effect blocks associated with a process control system for a process plant includes causing a display device to display a graphical user interface, the graphical user interface indicating a first monitor block, a second monitor block, and an effect block. The system and method further includes enabling a user to input configuration data via the input device, including: (i) configuring one of the outputs of the first monitor block to serve as one of the inputs of the second monitor block, (ii) configuring an additional one of the outputs of the first monitor block and one of the outputs of the second monitor block to serve as inputs to the effect block, and (iii) designating at least one of the plurality of cells of each of the first monitor block, the second monitor block, and the effect block as a trigger associated with the respective input/output pair for the respective cell and corresponding to a condition in the process plant.

An outdoor power tool activity monitoring device is provided. The device may include processing circuitry configured for receiving indications of device activity of the outdoor power tool, determining whether the device activity correlates to a predefined work pattern, determining a set of instructions associated with the predefined work pattern in response to the device activity correlating to the predefined work pattern, and initiating provision of the set of instructions to define a programmed response to the predefined work pattern.

Techniques for commissioning a process control device in a process plant include obtaining, at a portable computing device, commissioning data for commissioning the respective process control device for operation, such as a device tag. The portable computing device then transfers the commissioning data to a component in the same process control loop as the process control device via a wireless communication link. For example, the component includes a radio-frequency identification (RFID) or near field communication (NFC) unit for receiving RFID/NFC signals. When the portable computing device is within RFID/NFC communication range of the component, the commissioning data is transferred via an RFID/NFC signal to the component. The commissioning data is received while the component is in an unpowered state, where the RFID/NFC signal energizes the RFID/NFC unit at the component for receiving the signal.

Provided are a control method and a control device that can make the range of periodic activity (amplitude of reciprocal movement) of an object of control, such as an industrial robot, the same as a case in which the reduction device has no backlash or the same as the amplitude of a position instruction signal. A control device (3) that carries out position control for an arm (5), which carries out periodic movement, while compensating for backlash in the arm (5) is provided with a control unit (15) that adds to a position instruction signal, which gives instructions for the position of the arm (5), a backlash quantity signal after the backlash quantity signal has been shifted so as to be delayed by a delay time, generates a final position instruction signal, and carries out position control of the arm (5) on the basis of the final position instruction signal that has been generated, said backlash quantity signal compensating for backlash.

A method for executing heterogeneous program units of a program, in particular for controlling an automated system, includes forming, using a central management unit, an execution unit including program sequences having a plurality of instances of the heterogeneous program units. The heterogeneous program units are chosen from a set of the heterogeneous program units which are registered on the central management unit. The method further includes executing the plurality of instances of the heterogeneous program units of the execution unit according to a configured sequence.

A system and method for visualizing safety events within a process plant includes accessing a cause and effect matrix (CEM) having a set of causes and a set of effects, wherein the set of causes and the set of effects are representative of a set of monitored safety events within the process plant. The system and method further includes receiving a selection of a monitored safety event of the set of monitored safety events. The system and method may also include displaying, in a user interface, (i) an indication of the monitored safety event, and (ii) a current status of the monitored safety event. The system and method may also include detecting a change in status to the monitored safety event. Further, the system and method may include displaying, in the user interface, an updated status of the monitored safety event according to the change in status.

A processing indicating device to improve the efficiency of processing on an object. The device includes a first communication unit which communicates information with a plurality of processing devices for processing the object and a second communication unit which communicates information with a conveyance controlling device controlling conveying of the object to the plurality of processing devices. An arrival time predicting unit predicts on the basis of information received by the second communication unit, the time when the conveying device arrives at one of the processing devices. In addition, a finish time predicting unit receives information and predicts the time when the processing on the object in the one processing device finishes. A processing indicating unit causes processing control information that orders the execution of device state improvement treatment to be transmitted to the one processing device on the basis of the predicted respective times.

Disclosed are systems for producing an isocyanate composition associated with a digital asset, methods for producing an isocyanate composition associated with a digital asset, apparatuses for generating a digital asset, computer-implemented methods for generating a chemical pass-port, computer program elements for generating a digital asset, uses of an isocyanate composition associated with a digital asset, uses of a digital asset, products produced from the isocyanate composition and associated with a digital asset, a digital asset including one or more decentral identifier(s) and data related to the environmental impact data, apparatuses for producing a product associated with the digital asset and methods for producing a product associated with the digital asset.

A fastening guarantee system for vehicle assembly is used in a vehicle assembly line for assembling a fastening object to a vehicle body conveyed on a conveyer line with fastening members. The system may include i) a vehicle body sensing unit that senses a vehicle body entering the conveyer line and the distance to the vehicle body, ii) a plurality of tool sensing units at predetermined intervals along the conveyer line that senses the position of a fastening tool, iii) an inertia sensor module that senses the angle and the displacement of the fastening tool, iv) a tool controller, and v) the fastening tool.