A power grid network is provided featuring a mesh network having a mesh node with a signal processor. The signal processor receives signaling containing information about collected data, which includes electrical signaling data related to electrical signaling being processed by a transformer to which the mesh node is coupled, metered data related to associated electrical signaling being provided from the transformer to a building or structure, and other mesh network data from one or more other mesh nodes deployed in the mesh network. The signal processor also determines corresponding signaling containing information about the collected data for transmitting back to a central location or one or more corresponding mesh nodes in the mesh network for further processing, based upon the signaling received.

The present invention provides an interactive demand response system for controlling and routing power to one or more irrigation systems. According to a preferred embodiment of the present invention, a system is provided which includes a power station load control CPU and a terminal interface module to allow growers to sign up for and selectively override load control events via any web-connected computer, tablet, or smartphone. Further, the present invention preferably generates automated text and email alerts for upcoming load control events including the start and end times for each event. Further, the present invention may provide for displays of current system demand within groups of load control devices before, during, and after load control events. Further the system of the present invention preferably includes the creation and transmission of messages and reports which provide a recap for the power company and/or the growers and which detail the level of participation, power usage, timing of load control events, and the selection of overrides.

Provided is a monitoring apparatus that obtains, on an as-needed basis, audio data containing a notification sound emitted by an electrical appliance. A monitoring system (1) for monitoring the state of an electrical apparatus (400) which is to be monitored includes a monitoring apparatus (100) configured to (i) measure electric current consumed by the electrical appliance and obtain a notification sound that the electrical appliance emits during a predetermined sound recording period from when a predetermined change in the electric current is detected. The monitoring system (1) is configured to carry out a determination of the state of the electrical appliance from the notification sound and send report information, which is indicative of a result of the determination, to a communication terminal (300).

A sensor data fusion system includes a processor coupled to a plurality of sensors. The system is initialized by providing access to a data store storing at least one time series of sensor data; a semantic store storing semantic data including system variables, and relations between the system variables; and a mapping therebetween. A registration of a set of one or more variables of interest for which appropriate data is not available is obtained. An initially empty inference model is extended with the set of variables, to obtain an extended model. A request to observe a given one of the set of variables at a given timestamp is obtained. Responsive thereto, time series data for the set of registered variables is retrieved. The extended model is run with the retrieved data to obtain an estimate of the given one of the variables at the given timestamp.

Present invention concerns charging of a power source of a device. A power usage pattern collector is configured to: collect data on power usage in a device, power source of which is chargeable, with regard to at least one particular criterion having influence on power usage in the device; and determine at least one power usage pattern by use of the collected data, said power usage pattern specifying power usage in the device with regard to at least one particular reoccurring criterion. A charging controller is configured to: acquire at least one power usage pattern; and control charging of a power source of a device by use of the at least one acquired power usage pattern. Present invention relates also to corresponding methods, correspondingly arranged computer program products, correspondingly arranged computer-readable recording media, and a system comprising the power usage pattern collector and the charging controller.

A power system within a battery-powered node includes a primary cell, a secondary cell, and a battery controller. The battery controller includes a constant current source that draws power from the primary cell to charge the secondary cell. The battery-powered node draws power from the secondary cell across a wide range of current levels. When the voltage of the secondary cell drops beneath a minimum voltage level, the constant current source charges the secondary cell and a charging signal is sent to the battery-powered node. When the voltage of the second cell exceeds a maximum voltage level, the constant current source stops charging the secondary cell and the charging signal is terminated. The battery-powered node records the amount of time the charging signal is active and then determines a battery depletion level based on that amount of time. Battery replacement may then be efficiently scheduled based on the depletion level.

A management system includes an equipment and a management device. The management device includes a transmitter that transmits a first command to the equipment to instruct an operation of the equipment. The equipment includes a controller that controls an operation of the equipment according to the first command, and a transmitter that transmits a response command containing a property indicating a state of the equipment to the management device. A property of the first command includes a variable property indicating a variable that can be changed by an operation of the equipment. The controller keeps a variable indicated by the variable property without any change when the operation instructed by the first command is kept continuous. The transmitter provided in the equipment transmits the response command containing a specific value as the variable property to specify whether the operation is performed according to the first command.

A system for analyzing energy usage measures one or more parameters indicative of energy usage for a plurality of sub-circuits, where the sampling rate for the measuring is substantially continuous, and automatically transmits information related to at least one of the measured parameters at a rate that enables monitoring of current energy usage. The system further detects a significant change in a measured parameter, determines whether the significant change in the measured parameter is caused by a change in energy usage, and automatically transmits information related to the significant change in the measured parameter caused by the change in energy usage after detecting the significant change.

An electrical power outlet including a computer processor having a memory operably connected thereto storing computer instruction code, a control module for controlling the supply of electrical power from the outlet upon receipt of a control signal from the computer processor, and a communications module for connection with a plurality of external electrical power outlets, wherein the computer instruction code, when executed by the computer processor, causes the computer processor to control the supply of electrical power from the outlet according to predetermined conditions stored in the computer memory, and transmit contents of the computer memory to the plurality of external electrical power outlets and receive memory contents from a plurality of external electrical power outlets.

A power control arrangement for an aircraft galley including a power control unit and an interface unit. A power input of the power control unit includes a main switch and connects to a power feed. Each of a power outlets of the power control unit includes an outlet switch and connects to a galley insert. A main switch interface on the interface unit is provided for switching of the main switch. Each outlet switch interface of the interface unit is associated with one of the outlet switches for switching the outlet switch. The interface unit is arranged remote from the power control unit and the switch interfaces are connected to the corresponding switch via an electrical, radio or optical connection for controlling switching of the switches. Further, an aircraft galley and an aircraft are disclosed.