An aircraft includes an electrical system and an electronic controller. The electronic controller includes a main processor and a multi-core processor. The multi-core processor includes a control core in signal communication with the electrical system, and one or more prognostics cores configured to process and analyze prognostics and diagnostics data of the electrical system independently from operation of the control core. A wireless device is in signal communication with one or more of the prognostics cores to receive the prognostics and diagnostics data therefrom. The aircraft further includes a prognostics and health monitoring (PHM) system located remotely from the electronic controller. The PHM system is configured to wirelessly receive the prognostics and diagnostics data from the wireless device.

Embodiments of the present disclosure relate to a control infrastructure and relates systems and devices for controlling automotive components associated with a first domain of automotive components. In accordance with one exemplary embodiment the system comprises a Performance Cluster chip, at least a first Peripheral Integrated Circuit (IC) chip, and a digital real-time communication link connecting the Performance Cluster chip and the first Peripheral IC chip. The Performance Cluster chip is configured to execute application specific software, which includes at least one control algorithm for controlling at least one automotive component of the first domain. The Performance Cluster chip includes a first clock generator circuit generating a master clock signal, and Peripheral IC chip includes a second clock generator circuit, which synchronizes to the master clock signal via the communication link to generate a slave clock signal for the Peripheral IC chip. The Peripheral IC chip includes at least one of: an interface circuit to couple at least one sensor and a driver stage generating a control signal for at least one actuator.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium for communicating between an operational asset and a backend network that include the actions of receiving first data from an operational asset through a first communication interface that is configured to communicate with an operational asset, and where the first data is formatted according to a first data format that is specific to the operational asset. Processing the first data according to an asset template to generate second data, where the second data includes the first data and being formatted according to a second data format that is specific to the backend network. Causing the second data to be transmitted to the backend network by a second communication interface that is configured to communicate with a backend network.

A method of arbitrating conflicting outputs in a redundant control system. Execution data of a task executed by each controller in the redundant control system is recorded. The execution data includes an initial timestamp of each execution stream, identification of critical functions in each execution stream, and parameter values used by the critical functions. A path executed by each controller is identified based only on the critical functions executed for each execution stream. The recorded execution data of each executed path is applied to an arbitration module. An output result from one of the respective controllers selecting, by an arbitration module, based on the recorded execution data of each executed path. The output result of the selected controller is communicated to a next module for further processing.

A fault-tolerant distributed real-time computer system for controlling a physical system, in particular a machine or a motor vehicle, wherein the components of the computer system have access to a global time of known precision, and wherein the node computers and intelligent sensors and the intelligent actuators exchange time-triggered messages and event-triggered messages periodically via the distributor units, and wherein the functions of the user software are contained in real-time software components—RTSC—and the periodic time-triggered data transfer between the RTSC is specified by a time-triggered data flow diagram, and wherein the assignment of the RTSC to a TTVM of a node computer and specific parameters of the TTVM are contained in active local allocation plans for each RTSC, and wherein the time plans for the time-triggered communication in this distributor unit are contained in active local allocation plans for each distributor unit, and wherein a global allocation plan consists of the totality of the local allocation plans, which are adapted to one another, of all RTSC and all distributor units of the user software, and wherein a monitor component periodically receives a copy of messages of the node computers to define the present operating state of the node computers, and wherein after the permanent failure of one or more RTSC, the monitor component activates a passive global allocation plan which specifies the allocation of the RTSC and the data supply thereof on newly installed TTVMs to the still functional node computers, and wherein the RTSC arrive at the newly configured TTVMs for execution at the provided periodic restart point in time in accordance with the selected passive global allocation plan.

Embodiments of the present invention provide for ground moisture content adaptive irrigation control. A method for ground moisture content adaptive irrigation control includes specifying a geographic region in memory of a computer and retrieving with respect to the geographic region from over a computer communications network, weather data that includes precipitation and temperature information. The method also includes computing by a processor of the computer moisture content of the ground within the geographic region utilizing the weather data. Finally, the method includes transmitting a command to an irrigation control system configured to control irrigation of the ground, the command modifying either a reduction in an irrigation schedule in the irrigation control system responsive to a determination that the ground is of a high moisture content, or an increase in the irrigation schedule responsive to a determination that the ground is of a low moisture content.

One or more commercial appliances for handling food and/or one of more subsystems of commercial appliances for handling food are linked to a master controller for controlling the operation of the commercial appliance(s) and/or its subsystem(s) via one or more CAN modules and a CAN bus.

An avionics network including a plurality of avionics components and a configuration monitoring device, which is connected by wire or wirelessly to the plurality of avionics components. The configuration monitoring device has at least one configuration data interface configured to receive a plurality of configuration parameters characterizing the operating status of the avionics components. The configuration monitoring device further includes a parameter filtering device connected to the configuration data interface and configured to filter a subset of the configuration parameters received. The configuration monitoring device additionally includes reference parameter storage, configured to store sets of reference values for configuration parameters, and a parameter comparison device, coupled to the reference parameter storage and the parameter filtering device, and configured to compare the subset of configuration parameters received and filtered by the parameter filtering device with a set of reference values for the configuration parameters stored in the reference parameter storage.

A power device discovery and visualization system identifies and categorizes smart power and energy devices deployed within an industrial enterprise, and generates interfaces that render customized presentations of a plant's power and energy usage based on data retrieved from the discovered devices. The system also facilitates remote configuration of the discovered smart devices via interaction with a single consolidated interface that affords access to all discovered power and energy devices. The system constructs a device profile for each discovered smart device based on information retrieved from the device, and categorizes each discovered device according to device type (e.g., power meter, IED, VFD, controller, etc.). The system retrieves available historical, real-time, and/or configuration data from each discovered smart device and makes this data available for viewing or modification via the system interface, thereby unifying plantwide power and energy data into a common presentation.

The present invention becomes possible to employ a main microprocessor with a relatively lower number of input ports, whereby while maintaining the performance and function of a water heater, the cost of a control apparatus is cut down. Some of sensors, adapted for measurement of various parameters which are for use in operational control of the water heater and in need of immediate response, are connected to a main microprocessor 31. The other sensors that are not in need of an immediate response, such as an ambient temperature sensor 36, are connected only to a sub microprocessor 32 if the main microprocessor 31 does not have any extra analog signal input port. The sub microprocessor converts an analog signal from the sensor 36 which is connected only to the sub microprocessor into digital data. And the sub microprocessor transmits the digital data to the main microprocessor through communication therewith.