A system for resource monitoring and engagement, the system comprising: a server, coupled to an internet, comprising: a meter reading processor, configured to communicate with a resource monitor that is disposed within radio range of resource meters that transmit radio signals indicative of meter identifiers and current readings, where the resource monitor: determines whether the radio signals are of a fixed frequency or frequency hopping transmission protocol by scanning each of a plurality of channels for a time period and counting hits of desired meter identifiers within the each of the plurality of channels; decodes the radio signals according to a determined transmission protocol to obtain corresponding meter identifiers and readings; and transmits the corresponding meter identifiers and readings over the internet, and where the meter reading processor creates and updates a corresponding plurality of records in a resource database that indicate resource consumption of corresponding facilities; and an engagement processor, that causes an alert to be transmitted based on analyses of the resource consumption to provide notification of an unusual pattern of resource consumption.

A system for alert of energy resource outages includes: a resource monitor, disposed within radio range of resource meters that each transmit corresponding radio signals indicative of corresponding meter identifiers and current readings, configured to: determine whether the corresponding radio signals are fixed frequency or frequency hopping by scanning frequency channels for a time period and counting hits of desired meter identifiers; decode each of the one or more of the corresponding radio signals of the resource meters according to determined protocol to obtain one or more of the corresponding meter identifiers and current readings; and transmit the one or more of the corresponding meter identifiers and current readings; and a server, configured to: receive the one or more of the corresponding meter identifiers and current readings; employ the corresponding meter identifiers and current readings to detect an outage; and transmit an alert that corresponds to the outage.

Embodiments relate to a closed loop communication system. The system can include a consumer mobile device configured with a mobile application to identify its load consumption pattern and communicate the identified load consumption pattern to a utility device. The mobile device also sets a limit for maximum energy consumption through the mobile application. The system can also include the utility device that receives the identified load consumption pattern, and configured to send a short message service (SMS) alert to the mobile device to alert the mobile device to read meter energy consumption reading from energy meter and share with utility device due to direct connection failure with an energy meter. The system can also include an energy meter configured to communicate with the utility device, wherein the utility device attempts to receive the meter energy consumption reading from the energy meter.

A power meter or other electrical device is provided having two independent and communicatively isolated Ethernet ports. The first Ethernet port is addressable by a first unique identifier and is configured for enabling full access to the power meter via an internal LAN. This enables a LAN operator to remotely access the power meter via the internal LAN for performing metering functions, such as full telemetry, control and programming. The second Ethernet port is addressable by a second unique identifier and is configured for being connected to the Internet. Since the second Ethernet port is communicatively isolated from the first Ethernet port, a user can access the power meter via the Internet, but cannot access the internal LAN by connecting to the power meter via the Internet.

Devices, systems and methods for a cloud-based meter management system are provided. The present disclosure includes a meter cloud server, a plurality of IEDs or meters, and one or more clients (e.g., a web browser client), which are coupled via a network (e.g., via various wireless and/or hardwired communication networks). The various components and modules of the present disclosure provide a plurality of functions to enable one or more users to manage a plurality of IEDs or meters via the at least one client device.

A hub device adapted to simultaneously communicate to a user two or more parameters of energy use by a household, the device includes a metering communication link that is adapted to communicate with a meter to receive usage data describing energy supplied to the household.

A system for alert of energy resource outages includes: a resource monitor, disposed within radio range of resource meters that each transmit corresponding radio signals indicative of corresponding meter identifiers and current readings, configured to: determine whether the corresponding radio signals are fixed frequency or frequency hopping by scanning frequency channels for a time period and counting hits of desired meter identifiers; decode each of the one or more of the corresponding radio signals of the resource meters according to determined protocol to obtain one or more of the corresponding meter identifiers and current readings; and transmit the one or more of the corresponding meter identifiers and current readings; and a server, configured to: receive the one or more of the corresponding meter identifiers and current readings; employ the corresponding meter identifiers and current readings to detect an outage; and transmit an alert that corresponds to the outage.

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.

An electric power meter comprising modules coupled to each other. The modules include a sealed measuring module, and a module different from the measuring module; and the modules configured to enable any module to be replaced independently of the measuring module. A method for an electric power meter including modules coupled to each other. The modules include a sealed measuring module, and a module different from the measuring module. The method includes configuring the modules to be replaced independently of the measuring module. A system for communications with multiple meters. The meters are coupled to a gateway via a network. Each of the meters communicates using one protocol. The network includes nodes coupled to the gateway. Each of the nodes corresponds to one of the protocols; and at least some of the meters is coupled to each of the nodes based on the protocol used by each of the meters.

A resource monitor for monitoring consumption of a resource includes: a commissioning processor, configured to pair with a client device via a Bluetooth link, and configured to receive WIFI network credentials from the client device, and configured to transmit the credentials to commission the resource monitor onto the WIFI network, and configured to initiate communications with a resource server over the internet cloud; and a meter reading processor, that receives meter identifiers from the resource server via the internet cloud for resource meters within radio range, and that tunes a meter receiver to narrowband frequency channels to detect and decode radio signals transmitted by resource meters to extract the meter identifiers along with corresponding meter readings, and that periodically transmits the meter identifiers along with the corresponding meter readings to the resource server over the internet cloud.