Aircraft ground power cable management and monitoring systems and methods including arc fault protection. Disclosed systems are especially well-suited for high power systems such as 400 Hz aircraft ground power supply systems and cable assemblies.

A building management system (BMS) includes building equipment configured to provide samples of one or more data points in the building management system and a timeseries service. The timeseries service is configured to identify a first timeseries processing workflow that uses an input timeseries as an input and defines processing operations to be applied to the samples of the input timeseries, perform the processing operations defined by the first timeseries processing workflow to generate a first derived timeseries comprising a first set of derived timeseries samples, identify a second timeseries processing workflow that uses the first derived timeseries as an input and defines processing operations to be applied to the samples of the first derived timeseries, and perform the processing operations defined by the second timeseries processing workflow to generate a second derived timeseries comprising a second set of derived timeseries samples.

A method for configuring a modular safety switching apparatus having a plurality of electronic modules arranged in at least one module row, comprises: selecting, via a graphic user interface of a software-based configuration tool, a number of safety functions of the safety switching apparatus and logic requirements to be met by the safety switching apparatus; generating a configuration of the safety switching apparatus via the configuration tool by automated selection of the electronic modules from a plurality of types of electronic modules in order to implement the selected safety functions of the safety switching apparatus and logic requirements to be met by the safety switching apparatus; and storing the configuration of the safety switching apparatus as a configuration data set in a configuration database.

A method includes: accessing first data in a data stream, the first data including an encoded value representing a safety state of an emergency stop device; classifying the data stream into a first data class based on the encoded value; accessing a policy, associated with the first data class, defining first target conditions; selecting a first communication link as a first active communication link for the data stream, the first communication link exhibiting first conditions corresponding to the first target conditions; transmitting the first data via the first communication link; in response to detecting a difference between the first conditions and the first target conditions, selecting a second communication link as a second active communication link for the first data stream, the second communication link exhibiting second conditions corresponding to the first target conditions; and transmitting second data in the data stream via the second communication link.

A system and method for controlling an EMC protection apparatus in a removable component. The removable component is inserted into an end product. As a result of the insertion power is applied to the EMC protection apparatus. A determination is made as to whether a power good signal is detected within the removable component. In response to a power good signal, an EMC protection device is rotated from a retracted state to an engaged state such that the EMC protection device is placed over an enclosure opening in the removable component forming an EMC seal. Full functionality of the removable component can be delayed until such time as the rotation is completed.

A safety module having a plurality of microcontrollers receives an analog input and determines a value of the analog input. The microcontrollers each determine a respective ternary state of the device by identifying, from three candidate ranges of values, a range of values in which the value falls, wherein at least two of the plurality of microcontrollers uses different candidate ranges of values, determining, based on the identified range, a ternary state corresponding to the range, and assigning the determined ternary state as the respective ternary state. The safety module determines whether the ternary states from the two microcontrollers map to a fault state, and, where they do, cause a command a command to be output to the device to enter a safe state.

This disclosure provides an apparatus, system and method for supporting wired and wireless communications in industrial safety systems. The apparatus, system and method involve a safety management controller comprising one or more processors, one or more wired interfaces, and one or more wireless interfaces; wherein the safety management controller supports an application stack associated with an open industrial protocol that operates over multiple communication protocols, at least one of the communication protocols comprising a wired communication protocol, at least one other of the communication protocols comprising a wireless communication protocol.

A building management system (BMS) includes building equipment configured to provide samples of one or more data points in the building management system and a timeseries service. The timeseries service is configured to identify a first timeseries processing workflow that uses an input timeseries as an input and defines processing operations to be applied to the samples of the input timeseries, perform the processing operations defined by the first timeseries processing workflow to generate a first derived timeseries comprising a first set of derived timeseries samples, identify a second timeseries processing workflow that uses the first derived timeseries as an input and defines processing operations to be applied to the samples of the first derived timeseries, and perform the processing operations defined by the second timeseries processing workflow to generate a second derived timeseries comprising a second set of derived timeseries samples.

The present disclosure discloses a monitoring management and control system based on panoramic big data comprising an imaging device, a credential of the imaging device, a memory, a networking device, and a processing unit. The imaging device is configured to detect a first object and determine an approximate location of the first object and a reliability value of the approximate location of the first object based on the credential of the imaging device, the memory, the networking device, and the processing unit.

The present disclosure describes a computer-implemented method to manage an industrial plant facility, the method including: monitoring multiple streams of input data from a network of sensors at the industrial plant facility, wherein the network of sensors include one or more camera devices; determining, by a server computer, an event during construction or operation of the industrial plant facility based on analyzing the multiple streams of input data in real-time; and based on the determined event, generating a notification to alert at least one operator of the industrial plant facility.