The invention includes a method for monitoring an automated plant having at least one field device, wherein a first cloud-capable database, having a first data configuration and containing field device related data including measured values, parameter values, identification data, and diagnostic status of the field device, wherein a second cloud-capable database having a second data configuration incompatible with the first data configuration, and wherein the first and the second data configurations define file formats of the data, the method comprises: retrieving at least a part of the data contained in the first database by means of a data conversion unit, especially an edge device or a gateway; converting the retrieved data into a format conforming to the second data configuration; and storing the converted data in the second database. The invention further includes a data conversion unit, which is embodied for executing the method of the invention.

A self-testing automation system includes a decentralized distributed ledger-type database comprising a plurality of subscriber nodes, wherein the subscriber nodes exchange data with one another per transaction, and the database stores the transactions in data blocks which are linked together; a regulating mechanism which is implemented into each of the subscriber nodes, said regulating mechanism comprising information on the number and identity of all of the subscriber nodes as well as rules relating to actions, properties, and states of each of the subscriber nodes; and a plurality of automation components which are subscriber nodes of the decentralized database. Each of the subscriber nodes is designed to test or validate transactions between the subscriber nodes at all times using the regulating mechanism, and each of the subscriber nodes is designed to carry out at least one measure if a violation of the regulating mechanism is detected.

The disclosure relates to a system for resource administration in automation engineering. A field device is designed to record and/or influence process variables and is communicatively connected to an edge device and supplies raw data of the current measured value of the process or control variables. The edge device is communicatively connected to a service platform via a second communication network. In a container portion, a plurality of logic/application components are held which allow specific measurement and diagnosis capabilities to be executed. Based on the computing resources or storage resources provided in the field devices, in the edge device and in the service platform, the logic/application components can be loaded onto the respective devices and executed by the corresponding execution units of the devices.

An opt-in from at least one user of a plurality of users associated with at least one tool of a plurality of tools is received. An authentication associated with a first opted-in user of the plurality of users associated with an access of a first tool of the plurality of tools is determined. A set of credentials required to operate the first tool associated with the first opted-in user is verified. A request to an Internet of things (IoT) receiver device is transmitted. A response from an IoT transmitter device is received. In response to determining that the first user is utilizing required equipment to operate the first tool, power to the first tool is supplied.

A power distribution system and method can include a controller and a set of power-using devices. Each power-using device in the set can include a sensor configured to measure a parameter and transmit a sensor signal representing the parameter to the controller, and the controller can respond to the transmitted sensor signal.

A wireless sensor for an associated machine or machine part which includes a communications module that wirelessly transmits data related to the associated machine or machine part. The communications module is mounted on the sensor and the sensor is disposed under the bottom side of the control circuitry. A sensor is configured to measure one or more properties of the associated machine or machine part. The wireless sensor can be used with a smart device app such that information from the wireless sensor can be received and displayed on the smart device.

An output module for an industrial controller provides electrical isolation between each of the output terminals in the module. The output module receives control signals from the industrial controller indicating a desired output state for each of the output terminals and selectively connects power from the output of the electrical isolation to the output terminal. During normal operation, a switching device connects the power to the output terminal responsive to the control signal. A current sensor monitors the current conducted at the output terminal. If the current exceeds a predefined threshold, a current limit circuit clamps the current being output at the terminal. A control circuit may allow the output terminal to ride through a temporary spike in current or disable the output terminal if a fault condition is detected.

A HART modem includes: a HART/Host communication conversion unit, which relays communication between a HART device and a HART host device; a communication waveform detection unit configured to generate data sampled from HART communication signals transmitted and received to and from the HART device; and a communication interface unit configured to transmit the data generated by the communication waveform detection unit to the HART host device.

Introduced are a bed device system and methods for: gathering human biological signals, such as heart rate, breathing rate, or temperature; analyzing the gathered human biological signals; and controlling the bed device system, e.g., a temperature of the bed device, based on the analysis.

A cyber safety system that provides a real-time and independent cyber-attack monitoring and automatic cyber-attack response. The cyber safety system comprises a cyber monitoring logic to generate a cyber attack signal in response to a cyber attack event. The cyber safety system further comprises an automatic segmentation controller to generate a plurality of segmentation voltage signals or a plurality of segmentation messages in response to the cyber attack signal. The cyber safety system further comprises a plurality of firewalls configured to invoke firewall rulesets depending upon an input voltage signal level of the plurality of segmentation voltage signals or the plurality of segmentation messages to segment a site network in a plurality of site network segments and to control one or more physical devices as response to the cyber attack event.