Systems, apparatus and methods for managing demand-response programs and events

What is claimed is: 1. A method for carrying out a demand response event via an intelligent, network-connected thermostat in a structure, comprising: controlling the operation of a cooling system associated with the structure for a characterization period according to a heating, ventilation, and air conditioning (HVAC) schedule for the thermostat; receiving, for the characterization period, information for determining a plurality of physical parameters associated with the structure that are at least partially determinative of a suitability of the structure for participation in a demand response event; determining said plurality of physical parameters using the information, wherein said plurality of physical parameters includes: a cooling capacity of the cooling system relative to a volume of the structure to be cooled by the cooling system; and a thermal retention characteristic of the structure; receiving at least one user input characterizing a user amenability to demand response load shifting; receiving a notification of a demand response event interval defined by the demand response event; receiving a weather forecast indicating a predicted temperature at the location of the structure for the duration of the demand response interval; determining an occupancy probability profile for the demand response event interval; jointly processing information derived from said HVAC schedule, said cooling capacity of the cooling system said thermal retention characteristic, said user amenability to demand response load shifting, said weather forecast, and said occupancy probability profile to (a) determine whether said structure is qualified to participate in said demand response event, and (b) determine, if said structure is qualified to so participate, a demand response event implementation profile associated with participation in the demand response event; and controlling, in the event that said structure is determined to be qualified to participate in said demand response event, the cooling system according to said demand response event implementation profile during said demand response event interval. 2. The method of claim 1 , wherein said controlling the operation of the cooling system according to said HVAC schedule, said receiving at least one user input characterizing the user amenability, said receiving the demand response event interval, said receiving the weather forecast, said jointly processing information, and said controlling the cooling system according to said demand response event implementation profile are carried out by said intelligent, network-connected thermostat. 3. The method of claim 1 , wherein said demand response event implementation profile includes one or more of: a direct load control profile, a precooling profile, a temperature setback profile, and a temperature snapback profile. 4. The method of claim 3 , wherein said demand response event implementation profile includes the precooling profile when the predicted temperature at the location of the structure for the duration of the demand response interval is mild to moderate and the thermal retention characteristic of the structure indicates the structure is medium to well-sealed. 5. The method of claim 3 , wherein said demand response event implementation profile includes the temperature setback profile when: the predicted temperature at the location of the structure for the duration of the demand response interval is mild to moderate, the cooling capacity of the cooling system relative to the volume of the structure is medium to oversized, the thermal retention characteristic of the structure indicates the structure is medium to well-sealed, and the weather forecast indicates a predicted humidity at the location of the structure for the duration of the demand response interval as being low to moderate. 6. The method of claim 3 , wherein said demand response event implementation profile includes the direct load control profile when: the predicted temperature at the location of the structure for the duration of the demand response interval is hot, the cooling capacity of the cooling system relative to the volume of the structure to be cooled is undersized, or the weather forecast indicates a predicted humidity at the location of the structure for the duration of the demand response interval as being high. 7. The method of claim 3 , wherein said demand response event implementation profile includes the temperature snapback profile when said notification of the demand response event indicates that an expected or actual aggregate energy load on an electrical grid servicing the structure may be excessive during a post-event interval immediately subsequent to said demand response event interval. 8. The method of claim 1 , wherein the at least one user input characterizing the user amenability to demand response load shifting is received at a user interface associated with said network-connected thermostat in the form of a user selection of an operating point along a user interface slider tool that ranges from a maximum load shifting setting at one end to a maximum comfort setting at the other end. 9. The method of claim 1 , further comprising: receiving, at a user interface associated with said network-connected thermostat, at least one user input during said demand response event interval indicative of a user choice to deviate from a currently active setpoint temperature indicated by said demand response event implementation profile; computing a predicted change in achieved load shifting that would occur if said choice to deviate is implemented; displaying at said user interface information associated with said predicted change in achieved load shifting to the user; requesting a confirmation from said user at said user interface of said user choice to deviate; and operating according to said user choice to deviate upon receiving a positive confirmation from the user at said user interface. 10. The method of claim 9 , wherein said displaying information associated with said predicted change in achieved load shifting includes displaying warning information indicative of a disqualification condition related to a demand response participation benefit. 11. A network-connected thermostat for carrying out a demand response event for a structure, the thermostat comprising: one or more memory devices storing a heating, ventilation, and air conditioning (HVAC) schedule for the thermostat; one or more interfaces configured to receive: information, for a characterization period, for determining a plurality of physical parameters associated with the structure that are at least partially determinative of a suitability of the structure for participation in a demand response event; at least one user input characterizing a user amenability to demand response load shifting; a notification of a demand response event interval defined by the demand response event; and a weather forecast indicating a predicted temperature at the location of the structure for the duration of the demand response event interval; and one or more processors that are programmed to perform operation comprising: controlling the operation of a cooling system associated with the structure for the characterization period according to the HVAC schedule; determining said plurality of physical parameters using the information, wherein said plurality of physical parameters includes: a cooling capacity of the cooling system relative to a volume of the structure to be cooled by the cooling system; and a thermal retention characteristic of the structure; determining an occupancy probability profile for the demand response event interval; jointly processi