The invention relates to a control system for automatically monitoring machine tasks and workflows performed by agriculture, mining or construction machines, comprising a computer for enabling a user to configure sensors and actuators and for reading sensor and actuator signals as sensor values and actuator statuses, a hardware interface for connecting the computer to an installed sensor and actuator network having a plurality of sensors and actuators, and a software configuration tool with a software interface, wherein the software interface enables a user to enter configuration instructions for instructing the computer, to configure a user-specifically customizable transformed sensor based on amending a sensor value and/or actuator status of a sensor and/or actuator of the sensor and actuator network and machine task based on logically linking sensor values, transformed sensor values and actuator statuses, wherein the user-specific customizability is enabled by providing a selectability, linkability and conditionability of sensor values, transformed sensor values and actuator statuses as variables, wherein at least two variables are logically linked and wherein at least one variable is conditioned based on using relational operators.

The invention relates to a control system for automatically monitoring machine tasks and workflows performed by agriculture, mining or construction machines, comprising a computer for enabling a user to configure sensors and actuators and for reading sensor and actuator signals as sensor values and actuator statuses, a hardware interface for connecting the computer to an installed sensor and actuator network having a plurality of sensors and actuators, and a software configuration tool with a software interface, wherein the software interface enables a user to enter configuration instructions for instructing the computer, to configure a user-specifically customizable transformed sensor based on amending a sensor value and/or actuator status of a sensor and/or actuator of the sensor and actuator network and machine task based on logically linking sensor values, transformed sensor values and actuator statuses, wherein the user-specific customizability is enabled by providing a selectability, linkability and conditionability of sensor values, transformed sensor values and actuator statuses as variables, wherein at least two variables are logically linked and wherein at least one variable is conditioned based on using relational operators.

A well management system provides Internet-enabled monitoring, configuration, and control of a well system that may include a pump and a pressure tank. A controller is operatively coupled to the pump. The controller controls the pump based on pressure readings from a pressure sensor to maintain a configured pressure range within the system. The controller can communicate with a management system via a communications network. The management system is further in communication with one or more client devices, which may be associated with a homeowner, a service provider, a manufacturer, or the like. Via the management system, the client devices can receive information from the controller and send commands to the controller.

A well management system provides Internet-enabled monitoring, configuration, and control of a well system that may include a pump and a pressure tank. A controller is operatively coupled to the pump. The controller controls the pump based on pressure readings from a pressure sensor to maintain a configured pressure range within the system. The controller can communicate with a management system via a communications network. The management system is further in communication with one or more client devices, which may be associated with a homeowner, a service provider, a manufacturer, or the like. Via the management system, the client devices can receive information from the controller and send commands to the controller.

A remote control module for a self-propelled working device has a terminal data interface for interchanging data with a mobile terminal using a terminal data protocol specific to the terminal type, and a working device data interface for interchanging data with the working device using a working device data protocol specific to the working device type. A processing unit is adapted, when the mobile terminal is coupled to the self-propelled working device, to determine the identity and the type of the terminal and the identity and the type of the working device via the respective data interface or to retrieve them from a data memory, to reciprocally translate the respective data protocols when interchanging data between the terminal and the working device, and to transmit machine control data (MCD) from the terminal to the working device and to transmit machine status data (MSD) from the working device to the terminal.

A washing machine appliance includes a wash basket that is rotatably mounted within a wash tub and that defines a wash chamber for receiving a load of clothes. A dispensing assembly selectively dispenses wash fluid through a discharge nozzle into the wash tub and a camera assembly is used to monitor the wash fluid and diagnose issues related to the detergent quantity. Specifically, a controller of the washing machine appliance uses the camera assembly to obtain one or more images of the load of clothes as fresh water is dispensed to determine whether detergent was added manually. The controller further determines whether a smart dispense feature is activated or deactivated and implements a responsive action in response to determining that either 1) detergent is present and the smart dispense feature is activated or 2) detergent is not present and the smart dispense feature is deactivated.

A washing machine appliance includes a wash basket that is rotatably mounted within a wash tub and that defines a wash chamber for receiving a load of clothes. A dispensing assembly selectively dispenses wash fluid through a discharge nozzle into the wash tub and a camera assembly is used to monitor the wash fluid and diagnose issues related to the detergent quantity. Specifically, a controller of the washing machine appliance uses the camera assembly to obtain one or more images of the load of clothes as fresh water is dispensed to determine whether detergent was added manually. The controller further determines whether a smart dispense feature is activated or deactivated and implements a responsive action in response to determining that either 1) detergent is present and the smart dispense feature is activated or 2) detergent is not present and the smart dispense feature is deactivated.

An object of the present invention is to provide an agricultural work apparatus, an agricultural work management system, and a program capable of appropriately managing agricultural work information and smoothly implementing agricultural work and business in the future by making use of agricultural work information. An agricultural work apparatus may include: a first image-capturing device; an agricultural work determination unit that determines, on the basis of first image information obtained by capturing an image of a target of agricultural work through the first image-capturing device, whether or not to execute the agricultural work on the target; an agricultural work execution unit that executes the agricultural work; an agricultural work information generation unit that generates agricultural work information including a result of the agricultural work; a measurement unit that measures a position of the target; and an agricultural work information management unit that manages the agricultural work information and positional information.

A mechanical failure detection system for mechanical equipment that has an acoustic capture device disposed in operative proximity to the mechanical equipment in order to acquire an operative state audio signal from the mechanical equipment, and a signal processor structured to processes the operative state audio signal and isolate a constituent signal from the operative state audio signal. The system further includes an operation processor that identifies operating parameters of the mechanical equipment that substantially correspond with the operative state audio signal an which facilitate analysis by a test processor that maintains base line audio signals and corresponding base line operational parameters so that it can compare them to the constituent signal and identify correlations between the constituent signal and the base line audio signal indicative of an operational state of the mechanical equipment such as a failure state.

The disclosure relates to an autonomous device for tracking the usage time of a generator set, capable of providing an operating time of the generator set. The module includes at least one first sensor (101) capable of measuring a first parameter representing a state of operation of said generator set (9), a data processor furnishing the characteristic information for an operating time, as a function of the first parameter, storage of the characteristic information for an operating time, and a transmitter capable of transmitting the characteristic information for an operating time to a terminal or an external server.