A device configuration management apparatus includes a logical node information storage storing logical node information about a logical node that can be associated with a particular device and a particular location, the logical node information including for each of logical nodes a device ID for identifying the particular device and location information which is information for identifying the location, a network information storage storing network information as a set of information about an edge connecting two logical nodes, and a node update processer configured to perform processing for updating at least one of the device ID and the location information with regard to the particular logical node in the logical node information stored in the logical node information storage.

A data collection system including a device having a communication function and a data collection apparatus configured to collect data transmitted from the device. The data collection apparatus includes a receiver configured to receive data transmitted from the device, a data analyzer configured to acquire analyzed data by analyzing the received data according to analysis data format different for each device, a first data storage which is a non-rewritable storage, a second data storage which is storage that can be accessed faster than the first data storage and that stores a smaller amount of data than the first data storage, a data writer configured to writes and stores the data received by the receiver to the first data storage, and writes and stores the analyzed data acquired by the data analyzer to the second data storage.

A method for implementing a digital twin for a physical component of an industrial system includes assigning a unique identifier to the physical component, associating the unique identifier with a digital twin representative of the physical component, placing the digital twin of the physical component on a distributed network. The physical component sends the unique identifier to a known resource, which retrieves the network address of the physical twin associated with the unique identifier and provides the network address to the physical component. A secure communication connection is established between the physical component and the corresponding digital twin via the distributed network. The unique identifier may be a quick read (QR) code displayed on the physical component or a bar code displayed on the physical component. Engineering and simulation software for the digital twin may be supplied on the distributed network.

A method for verifying field device inventory includes connecting a processing unit to a network; reading the address space of the network using the processing unit to generate a list of field devices contained in the address space; establishing communication between the processing unit and a field device contained in the list; reading out identification information of the field device using the processing unit, the identification and a characteristic parameter of the field device; carrying out a consistency check, a negative result being achieved if a field device is already entered under the serial number that has been read out; checking, if a negative result, whether a characteristic parameter of the field device corresponds with the characteristic parameter that has been read out; and outputting a notification using the processing unit that a characteristic parameter assigned to the field device deviates from the parameter that has been read out.

Various embodiments of the teachings herein include a fault processing method comprising: receiving two historical faults similar to a target fault; searching keywords in a description of the target fault and each historical fault, wherein the keywords are classified into N grades, and for each system component in a grade, the grade comprises at least one keyword for describing the component, wherein N is an integer no less than 2; for each of the N grades, counting a quantity of identical system components represented by the keywords in the text description of each historical fault and the target fault; and comparing a degree of similarity of each historical fault to the target fault according to the quantity of identical system components counted in each grade of the N different grades, wherein a historical fault relating to a larger number of high-grade identical system components has a higher degree of similarity to the target fault.

Disclosed is a medical robot system including medical robots placed at different locations and a data analysis apparatus. Each of the medical robots includes a controller that transmits data on a state of operation of the medical robot to the data analysis apparatus. The data analysis apparatus includes a data analysis unit that generates a reference for determining whether or not the medical robots are normal, based on the data transmitted from the medical robots. The data analysis unit monitors the data transmitted from each of the medical robots in operation based on the reference.

A method and system of performing a commissioning procedure for an industrial facility utilizing assets includes receiving, at an electronic processor of a computing device, a series of selections to obtain audit information. From the selections, the electronic processor generates a search query and transmits the search query to a web server and a relational database for execution of the search query to obtain audit information. The electronic processor receives the audit information and populates the audit information into a record including an asset location, and an open pass/fail decision status for each of the assets for display as a record on a user interface. The electronic processor receives a selection of pass or fail for the audit information of a first asset, transmits a pass/fail result to the relational database via the web server, and displays the pass/fail result.

A system and method for synchronizing instrument specification data between a process control system and an external database are provided. A software application automatically connects to the process control system and scans a set of data utilized by the system to detect changes in the data since a previous scan. If changes are detected, the application notifies a manager to accept or reject changes. If changes are accepted, the application updates data stored on an instrumentation database external to the process control system so that the data stored on the instrumentation database is synchronized with real-time data used by the process control system. The system and method provide automated updates to ensure the accuracy of data utilized by users not having regular access to the process control system.

A building management system for a building system includes a building system interface configured to receive building system data; a knowledge base configured to receive the building system data, the knowledge base providing a model of the building system, the model including semantic descriptions of the building system data, the semantic descriptions of the building system data being arranged in an ontology; and a user interface configured to access the knowledge base.

To provide a start-up control device and a start-up control method for a power plant capable of changing the start-up completion estimated time to a desired time simply and safely while starting the power plant. The start-up control device includes an equipment state quantity acquisition unit acquiring an equipment state quantity of the power plant, a start-up schedule calculation unit calculating a current start-up schedule based on the equipment state quantity and a first thermal stress limiting value and calculating a start-up schedule changing plan based on the equipment state quantity and a second thermal stress limiting value, an equipment operation amount calculation unit calculating an equipment operation amount of the power plant based on the current start-up schedule, a screen display unit displaying respective start-up completion estimated times of the current start-up schedule and the start-up schedule changing plan, and an instruction input unit instructing the start-up schedule calculation unit to perform switching from the current start-up schedule to the start-up schedule changing plan.