Patent Number: 
Section: claims

1. A system comprising:a processor;a permanent monitor operably coupled to a load connected to an energy distribution system, wherein the permanent monitor produces base load values indicative of an energy-related parameter associated with the load and transmits the base load values to the processor, the base load values being collected over a period of time sufficient to capture an operational range of the load;a temporary monitor operably coupled to the load, wherein the temporary monitor produces, at substantially the same time as the permanent monitor, temporary load values indicative of the energy-related parameter or a different energy-related parameter associated with the load and transmits the temporary load values to the processor, the temporary load values being collected over the period of time without having to disconnect the load from the energy distribution system, and wherein each of the permanent monitor and the temporary monitor is configured to measure values of the energy distribution system to produce the base load values and the temporary load values, respectively, the temporary monitor being capable of monitoring (a) more advanced measurements of the value than the permanent monitor is capable of or (b) more accurate measurements of the value relative to the permanent monitor;wherein the processor generates at least one load model indicative of a relationship between the transmitted base load values and the transmitted temporary load values, wherein, responsive to the temporary monitor being disconnected from the load, (a) the permanent monitor produces a new base load value indicative of the energy-related parameter associated with the load and (b) the processor calculates an estimated load value based on the new base load value and the load model, wherein the load model incorporates known characteristics of the load provided by the manufacturer of the load, and wherein the processor determines a confidence interval for the estimated load value to determine an estimation range for the load model, the estimation range corresponding to a range within which the estimated load value approximates at least one of the temporary load values. 2. The system of claim 1, wherein the temporary monitor is coupled to the load for a period of time sufficient to capture an operational range of the load. 3. The system of claim 1, wherein the temporary monitor and the permanent monitor are coupled to the processor by a communication network. 4. The system of claim 1, wherein the permanent monitor and the temporary monitor are synchronized to substantially simultaneously measure the base load value and the temporary load value. 5. The system of claim 4, wherein the temporary monitor and the permanent monitor are synchronized with an external time source. 6. The system of claim 4, wherein one of the permanent monitor and the temporary monitor acts as a master device and transmits a synchronization signal. 7. A method comprising:establishing, using a processor, a load model that utilizes a measurement of an energy distribution system from a second monitor to estimate a value taken by a first monitor operably coupled to a load connected to the energy distribution system;collecting, using the processor, from the first monitor base load values indicative of an energy-related parameter associated with the load over a period of time sufficient to capture an operational range of the load;collecting, using the processor, from the second monitor temporary load values indicative of the energy-related parameter or a different energy-related parameter associated with the load over the period of time without having to disconnect the load from the energy distribution system, the second monitor being capable of monitoring (a) more advanced measurements than the permanent monitor is capable of or (b) more accurate measurements relative to the permanent monitor, the base load values and the temporary load values being produced at substantially the same time;responsive to the second monitor being disconnected from the load, collecting a new base load value indicative of the energy-related parameter associated with the load and calculating, using the processor, an estimated load value by applying the load model to the new base load value, wherein the load model incorporates known characteristics of the load provided by the manufacturer of the load;storing the estimated load value in a memory device coupled to the processor; anddetermining, using the processor, a confidence interval for the estimated load value to determine an estimation range for the load model, the estimation range corresponding to a range within which the estimated load value approximates at least one of the temporary load values. 8. The method of claim 7, wherein the step of determining yields a second load model. 9. The method of claim 7, wherein the step of collecting the plurality of temporary load values and the step of collecting the plurality of the base load values are synchronized. 10. The method of claim 7, wherein the step of collecting the plurality of temporary load values and the step of collecting the plurality of the base load values is synchronized by a master monitor. 11. The method of claim 7, wherein the steps of collecting occurs over a period of time sufficient to capture an operational range of the load. 12. The method of claim 7, wherein an estimation range is determined for the load model. 13. The method of claim 7, wherein the step of establishing utilizes at least one external specification for the load. 14. The method of claim 7, wherein the step of establishing comprises utilizing a pre-defined load model. 15. The method of claim 7, wherein the load model is determined by a regression method. 16. A computer program product, comprising one or more non-transitory computer-readable media, wherein information embodied on the non-transitory computer-readable media is configured to cause a processor to implement a method comprising:establishing a load model that utilizes a measurement of an energy distribution system from a second monitor to estimate a value taken by a first monitor operably coupled to a load connected to the energy distribution system;collecting from the first monitor base load values indicative of an energy-related parameter associated with the load over a period of time sufficient to capture an operational range of the load;collecting from the second monitor temporary load values indicative of the energy-related parameter or a different energy-related parameter associated with the load over the period of time without having to disconnect the load from the energy distribution system, the second monitor being capable of monitoring (a) more advanced measurements than the permanent monitor is capable of or (b) more accurate measurements relative to the permanent monitor, the base load values and the temporary load values being produced at substantially the same time;responsive to the second monitor being disconnected from the load, collecting a new base load value indicative of the energy-related parameter associated with the load and calculating an estimated load value by applying the load model to the new base load value, wherein the load model incorporates known characteristics of the load provided by the manufacturer of the load;storing the estimated load value in a memory device; anddetermining a confidence interval for the estimated load value to determine an estimation range for the load model, the estimation range corresponding to a range within which the estimated load value approximates at least one of the temporary load values.