Aspects of operating an automated machine include: a database device for storing a plurality of machine safety rules (SRj) in terms of relationships between safety-sensor devices and technical devices, in particular requirements between safety-sensor device description data (DSDi) and technical-device description data (DDi); and a control device implemented: to retrieve the safety-sensor device description data (DSDi) and the technical-device description data (DDi) associated to the technical devices and the safety-sensor devices comprised in the automated machine, to retrieve, from the database device, safety rules (SRj) corresponding to the retrieved safety-sensor device description data (DSDi) and the technical-device description data (DDi), to determine as to whether the retrieved safety-sensor device description data (DSDi) and the technical-device description data (DDi) comply with retrieved safety rules (SRj).

A non-transitory computer-readable storage medium, a system and method for automatically updating a multi-hierarchal representation of the system when building and tracking an automation engineering environment, wherein navigation schemes that automatically search for and connect to engineering objects based on predefined relations in multi-dimensional hierarchies are defined within an engineering object of the automation project in order to react to changes within a multi-disciplinary automation project, where the engineering object also includes an intelligent extraction port that automatically extracts predefined property data from a source engineering object when the source engineering object is connected to the engineering object.

Embodiments of this present disclosure may include a handle disposed on an outer surface of a housing of electrical circuitry. The handle may provide access to at least a portion of the electrical circuitry. The handle may include a status indicator that emits light in response to a control signal from control circuitry. The status indicator may be disposed around the handle. The control circuitry may detect a state of the electrical protection circuitry. The control circuitry may also transmit the control signal to the status indicator based on the state. The control signal may control one or more properties of the light emitted by the status indicator, and thus indicate to an operator the state of the electrical circuitry.

A method for integrating a field device into an automation system includes: configuring an application interface of a system controller of the automation system for communication with a data interface for the field device, the application interface being configured to send a request message (REQ message) in data packets, and to receive a response message (RES message) via a TCP connection, and during the configuring the data packets include an address field for the data interface of the field device specifying a first address referring to a server outside the automation system; and integrating the field device into the automation system by changing the address field in the data packets to a second address referring to the data interface of the field device within the automation system.

Described herein are systems, methods, and other techniques for controlling a velocity of a construction machine operating within a construction site. Sensor data is captured using one or more sensors of the construction machine while the construction machine is moving at the velocity in a forward or a backward direction. An actual surface of the construction site is estimated based on the sensor data. A deviation between a target surface and the actual surface is calculated. An actual performance metric is calculated based on the deviation. The actual performance metric is compared to a target performance metric to determine a velocity adjustment. The velocity of the construction machine is adjusted by the velocity adjustment.

In one embodiment, a multi-purpose sensor may couple to a machine operating in an industrial environment and include numerous sensors disposed within the multi-purpose sensor to acquire sets of data associated with the machine or an environment surrounding the machine. A first portion of the sets of data may include historical sensor measurements over time for each of the sensors, and a second portion of the sets of data may include sensor measurements subsequent to when the first portion is acquired for each of the sensors. A processor of the multi-purpose sensor may determine a baseline collective signature based on the first portion, determine a subsequent collective signature based on the second portion, determine whether the collective signatures vary, and generate signals when a variance exists. The signals may cause a computing device, a cloud-based computing system, and/or a control/monitoring device to perform various actions.

Embodiments of this present disclosure may include a handle disposed on an outer surface of a housing of electrical circuitry. The handle may provide access to at least a portion of the electrical circuitry. The handle may include a status indicator that emits light in response to a control signal from control circuitry. The status indicator may be disposed around the handle. The control circuitry may detect a state of the electrical protection circuitry. The control circuitry may also transmit the control signal to the status indicator based on the state. The control signal may control one or more properties of the light emitted by the status indicator, and thus indicate to an operator the state of the electrical circuitry.

An automated system includes transducers, at least one computing device, and at least one automated apparatus. The transducer(s) is/are driven and sensed using drive-sense circuit(s). A drives and senses drive and sense a transducer via a single line, generates a digital signal representative of a sensed analog feature to which the transducer is exposed, and transmits the digital signal to the computing device. The computing device receives digital signals from at least some of drive-sense circuits and process them in accordance with the automation process to produce an automated process command. The automated apparatus executes a portion of an automated process based on the automated process command.

A non-transitory computer-readable storage medium, a system and method for automatically updating a multi-hierarchal representation of the system when building and tracking an automation engineering environment, wherein navigation schemes that automatically search for and connect to engineering objects based on predefined relations in multi-dimensional hierarchies are defined within an engineering object of the automation project in order to react to changes within a multi-disciplinary automation project, where the engineering object also includes an intelligent extraction port that automatically extracts predefined property data from a source engineering object when the source engineering object is connected to the engineering object.

An automated system includes transducers, at least one computing device, and at least one automated apparatus. The transducer(s) is/are driven and sensed using drive-sense circuit(s). A drives and senses drive and sense a transducer via a single line, generates a digital signal representative of a sensed analog feature to which the transducer is exposed, and transmits the digital signal to the computing device. The computing device receives digital signals from at least some of drive-sense circuits and process them in accordance with the automation process to produce an automated process command. The automated apparatus executes a portion of an automated process based on the automated process command.