In various embodiments, a policy-based residential networked meter can be an energy switch router device (ESRD) that provides policy-based advanced metering, load control and shaping, energy services delivery and accounting, and secure web services interfaces and internetworking communications. The
In various embodiments, a policy-based residential networked meter can be an energy switch router device (ESRD) that provides policy-based advanced metering, load control and shaping, energy services delivery and accounting, and secure web services interfaces and internetworking communications. The ESRD can be integrated and inter-related with advanced policy-based sensory, metrology, monitoring, control, recording, classification, prioritization, security, routing, and switching functions. The ESRD may be used to sense, measure, meter, and control electrical service flows to the utility service point at the customer premise, and may be configured and managed with one or more policy-based networking methods.
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1. A system for distributing a utility, the system comprising: a utility network operations center;a utility network comprising a plurality of distribution devices for distributing one or more utilities to one or more locations; anda plurality of metering devices coupled to the utility network, each
1. A system for distributing a utility, the system comprising: a utility network operations center;a utility network comprising a plurality of distribution devices for distributing one or more utilities to one or more locations; anda plurality of metering devices coupled to the utility network, each metering device comprising: at least one network interface; anda logic fabric distributable at a plurality of locations comprising at least one of a distribution feeder and a customer premise, and configured to: receive information from the utility network operations center, wherein the information is based on a set of policies defining a measure of distribution of the utility over a utility grid, and wherein the set of policies is dynamically updatable, the set of policies comprising a configuration policy for energy switch routing operations, and wherein the configuration policy is deployed from a centralized location to a plurality of distributed energy switch routers,configure one or more of the distribution devices to distribute a utility based on, at least in part, the received information, androute communications related to the distribution of the utility via the at least one network interface. 2. The system of claim 1, wherein the network operations center is configured to provide web-based configuration of each of the plurality of metering devices. 3. The system of claim 1, wherein the network operations center is configured to generate at least a portion of the set of policies that provision each of the plurality of metering devices. 4. The system of claim 1, wherein one or more of the plurality of metering devices are configured to interface with electrical transmission devices. 5. The system of claim 1, wherein one or more of the plurality of metering devices are configured to interface with electrical generation devices. 6. The system of claim 1, wherein the logic fabric is configured to route communications between the metering device and the network operations center via the at least one network interface. 7. The system of claim 1, wherein the logic fabric is configured to route communications between the metering device and one or more of the plurality of metering devices via the at least one network interface. 8. The system of claim 1, wherein the logic fabric is configured to route communications between the network operations center and one or more of the plurality of metering devices via the at least one network interface. 9. The system of claim 1, wherein the logic fabric is configured to route communications to an Internet service provider via a home area network interface configured to enable access to the Internet to one or more devices associated with a customer's premises. 10. The system of claim 1, wherein the at least one network interface is selected from a group of interfaces consisting of: a wide area network interface,a metropolitan area network interface,a local area network interface,a home area network interface,a wireless local area network interface;a WiMAX interface,a 3GPP LTE interface,a WiFi interface, anda ZigBee interface. 11. The system of claim 1, wherein the plurality of network devices are selected from a group of network devices consisting of: a network device located at a utility transmission substation,a network device located at a utility transmission feeder,a network device located at a utility distribution substation,a network device located at a utility distribution feeder, anda network device located at a customer premise. 12. The system of claim 1, wherein each of the plurality of network devices is provided with a particular policy. 13. A method for providing a utility, the method comprising: receiving provisioning information at a networked metering device, wherein the information is based on a set of policies defining a measure of distribution of a utility over a utility grid, and wherein the set of policies is dynamically updatable, the set of policies comprising a configuration policy for energy switch routing operations, and wherein the configuration policy is deployed from a centralized location to a plurality of distributed energy switch routers;configuring a logic fabric at the networked metering device distributable at a plurality of locations comprising at least one of a distribution feeder and a customer premise, based on the provisioning information, configuring the logic fabric comprising:configuring a sensor engine to perform a metrology function based on the set of policies using information associated with one or more sensor devices; androuting communications related to the metrology function to a network via at least one network interface.
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