Determination of electrical network topology and connectivity are described herein. A zero-crossing is indicated at a time when the line voltage of a conducting wire in an electrical grid is zero. Such zero-crossings may be used to measure time within a smart grid, and to determine the connectivity of, and the electrical phase used by, particular network elements. A first meter may receive a phase angle determination (PAD) message, including zero-crossing information, sent from a second meter, hereafter called a reference meter. The first meter may compare the received zero-crossing information to its own zero-crossing information. A phase difference may be determined between the first meter and the reference meter from which the PAD message originated. The first meter may pass the PAD message to additional meters, which propagate the message through the network. Accordingly, an electrical phase used by meters within the network may be determined.

A modification of a sensor data management system to enable discrete sensor applications. A sensor data control system enables discrete sensor applications to control the configuration, collection, processing, and distribution of sensor data produced by selected sensors at various monitored locations. The sensor service offered by the sensor data control system can be leveraged by any sensor application having an interest in any part of one or more monitored locations.

A system that detects energy resource outages includes: resource monitors, each disposed within radio range of resource meters that transmit corresponding radio signals indicative of meter identifiers and current readings, where the resource monitors are configured to receive and decode the radio signals to obtain one or more of the meter identifiers and current readings, and where the each of the resource monitors transmits the one or more of the meter identifiers and current readings over the internet cloud; and a resource server, operatively coupled to the resource monitors via the internet cloud, configured to receive the one or more meter identifiers and current readings from the resource monitors, and configured to employ the current readings to detect an outage within a geographic area, and configured to send alerts to a resource provider that correspond to the outage.

A system for detecting, analyzing and manipulating devices, wherein a virtual graphics component displays an operating state of the device and is integrated in a moving image of the device as a complete image, and wherein the complete image is updated at regular time intervals.

A configured mode of operation of a wireless sensor node unit can selectively activate a first subset of sensor channels of data and selectively deactivate a second subset of sensor channels of data. The configured mode of operation customizes the sensor functionality in the wireless sensor node unit in support of the delivery of data streams to customers.

An infrastructure and methods for the analysis of flow in pipe systems. In a preferred form, the infrastructure and methods account for energy status of a sensor device and wear cost functions. The infrastructure comprises a controller and a plurality of sensor devices coupled to the pipe system to collect measurements related to one or more of the following: vibration, magnetic field, fluid pressure, temperature, humidity, chemical composition of the fluid, fluid flow or fluid throughput. The controller has access to a database containing one or both of—(i) current energy status of a sensor device and/or (ii) a cost allocation relating to use of a sensor device and assigns workloads using energy status and/or cost.

A remote radio frequency (RF) power sensing unit includes a first module and a second module. The first module may be configured to generate an analog signal representative of a power level of a radio frequency (RF) signal. The second module may be configured to (i) receive a particular frequency of a plurality of frequencies over a wireless communication channel from a device, (ii) generate a value conveying a magnitude of said power level of said RF signal in response to said analog signal, (iii) convert said value into a digital signal communicating said power level based on said particular frequency indexed into a table, and (iv) transmit said digital signal communicating said power level and information identifying said radio frequency power sensing unit over said wireless communication channel to said device.

A method for operating an electronic consumption-data acquisition device includes wirelessly transferring consumption data to a receiver over a first radio system, operating the consumption-data acquisition device in a first operating mode in which the consumption data is transferred over the first radio system and a second operating mode having a lower rate of transmission and/or readiness to receive compared with the first operating mode, with it being possible to switch between the first and second operating modes. The switchover between the first and second operating modes is performed by a second radio system. A consumption-data acquisition device includes a communication module having a radio apparatus for a second radio system which can be used to perform the switchover between the first and second operating modes.

Techniques are discussed for performing a demand reset in a wireless meter reading environment, in a manner such that demand data may not be lost. In response to receiving a command from a mobile device of a requester, a meter may store demand value(s) in a log, reset register(s) that store the demand value(s) and wirelessly provide the demand value(s) to the mobile device of the requester. Due to the lack of reliability associated with wireless communications between the meter and a requestor, the requestor may not actually receive the demand value(s). Upon receiving a subsequent command for the demand value(s), the meter may determine that the command is a replay, and provide the demand value(s) without resetting the register(s). Techniques are also discussed for generating the commands, securing the commands, and providing the commands to mobile devices in route packages.

Systems and methods for environmental monitoring of high activity facilities, generally comprising low profile devices having sensing elements for various environmental uses, designed to provide the wireless communications network as a basis for performing a wide variety of tasks. The devices may be installed on an existing electrical system and may measure, among other things, electrical current on various circuits.