Methods and systems are provided for monitoring and controlling irrigation and climate conditions in landscapes (such as, e.g., municipal parks, gardens, and sports fields) and agricultural environments (such as, e.g., open agricultural fields, greenhouses, and other sites growing crops).

A method for configuring a target field device in an industrial plant by way of at least one mobile device including receiving configuration data characterizing the behavior of a source field device in the industrial plant from the source field device through the mobile device by way of a radio interface of the mobile device, which is also supported by the source field device, receiving at least one identification feature characterizing a target field device and/or function of the target field device in the industrial plant by a mobile device by way of a radio interface of the mobile device, which is also supported by the target field device checking by way of the mobile device, using the identification feature, whether the configuration data are suitable and/or intended for the configuration of the target field device, and in response to the configuration data being suitable and/or provided for the configuration of the target field device, transmitting at least a subset of the configuration data from the mobile device to the target field device by way of a radio interface of the mobile device which is also supported by the target field device.

An apparatus, method and computer program product for controlling wirelessly controlled equipment, such as a ductless air conditioning system. A control module is provided comprising an optical source for generating an optical control signal. The control module enables a smartphone to control wirelessly controlled equipment of the type which is controlled by a remote-control device generating an optical signal. An electrical circuit generates electrical control signals to be coupled to the optical source, wherein the electrical circuit generates the electrical control signals depending on information received from a network connection. A wireless communications module communicates with the smartphone. A mobile application stored in a memory of the smartphone communicates user selections from the smartphone over the network connection to the apparatus to implement transmission of electrical control signals to the control module to cause the control module to cause the optical source to generate the optical control signals to control the operation of the wirelessly controlled equipment.

According to an aspect, there is provided method for analyzing movement. Initially, information on one or more desired movement properties for a moving element of a mechanical system powered by an electrical machine which is controlled by a drive is maintained in a memory of a wireless sensing device. The wireless sensing device including one or more sensors is detachably fixed to the moving element of the mechanical system. The one or more sensors include one or more kinematic sensors. The wireless sensing device acquire results of a plurality of measurements performed by the wireless sensing device while the moving element is in motion. During the acquiring, the wireless sensing device compares results of the plurality of measurements with the one or more desired movement properties and communicates with the drive to adjust one or more drive parameters based on the comparing.

A control box for a sprinkler or irrigation systems has a housing with a base and a set of sidewalls. A cover is removably secured to the housing. A solar panel is positioned on the cover. One or more rechargeable batteries are stored in the housing that are recharged by the solar panel. A control module is powered by the one or more rechargeable batteries. The control module is configured to generate control signals that actuate one or more flow control valves in the sprinkler or irrigation system.

Methods and systems are provided for monitoring and controlling irrigation and climate conditions in landscapes (such as, e.g., municipal parks, gardens, and sports fields) and agricultural environments (such as, e.g., open agricultural fields, greenhouses, and other sites growing crops).

A first mobile terminal includes a microphone to receive a voice, a mobile communication module to make communication with a second mobile terminal, and a learning data unit to receive a command for entering an artificial intelligence (AI) telephone conversation mode, to obtain a user intent of the first mobile terminal, based on the received command, and to automatically perform a first task with the second mobile terminal according to the obtained user intent.

A system for remotely measuring the characteristics of water passing through a plumbing control device (PCD) includes a sensor within the interior of the PCD. The sensor is configured to measure characteristics of the water to obtain measured data. The sensor is also linked to a microcontroller of the PCD. An antenna board is linked, and configured to transmit power, to both the microcontroller and the sensor. A mobile device is configured to locate the antenna board. The mobile device transmits power to the antenna board which, in turn, transmits power to the microcontroller and the sensor. When power is not being transmitted from the antenna board, the microcontroller and the sensor are powered off.

A method and system for remotely controlling a mobile climate control system for a vehicle is provided. The method allows for remote connection of a smart device to a mobile climate control system. The mobile climate control system may comprise a single HVAC system and thermostat or may comprise multiple HVAC systems and thermostats which provide multi-zone climate control for a vehicle, such as for non-limiting example, a recreational vehicle (RV). In some other embodiments, the system may comprise multiple HVACs and a single thermostat.

A first mobile terminal includes a microphone to receive a voice, a mobile communication module to make communication with a second mobile terminal, and a learning data unit to receive a command for entering an artificial intelligence (AI) telephone conversation mode, to obtain a user intent of the first mobile terminal, based on the received command, and to automatically perform a first task with the second mobile terminal according to the obtained user intent.