Systems, apparatus, and methods for automatic generation control based on comprehensive control performance standard green zone control

What is claimed is: 1. A power distribution system comprising: a plurality of power generating resources operating within a control area; a plurality of power consuming loads; a power transmission network coupling the resources to the loads; and an energy management system (EMS) in communication with the resources and configured to control operation of the resources within the control area, wherein the EMS is operative to: determine a control performance standard (CPS) green zone; operate an automatic generation control (AGC) system of the EMS within the determined CPS green zone; and output electricity to the loads from the resources under the control of the AGC of the EMS operating within the green zone. 2. The power distribution system of claim 1 wherein the CPS green zone is determined based upon an intersection of CPS1 and CPS2 operating limits. 3. The power distribution system of claim 1 wherein the CPS green zone is defined by an upper boundary determined based on area control error (ACE) and a first portion of a pre-defined percentage CPS1 compliance curve and a lower boundary determined based on negative ACE and a second portion of the pre-defined percentage CPS1 compliance curve. 4. The power distribution system of claim 1 wherein the energy management system includes a predictive CPS1 control module operative to determine a one-minute area control error (ACE) target for short term CPS1 control based on CPS1 performance statistics over a most recent approximate one year period. 5. The power distribution system of claim 1 wherein the energy management system includes a predictive CPS2 control module operative to determine a ten-minute ACE target for short term CPS2 control based on CPS2 performance statistics over a current month up to a current moment. 6. The power distribution system of claim 1 wherein the energy management system includes an instantaneous CPS1 control module operative to determine an amount of control effort for CPS1 control based on a one-minute ACE target derived from long term CPS1 control. 7. The power distribution system of claim 1 wherein the energy management system includes an instantaneous CPS2 control module operative to determine an amount of control effort for CPS2 control based on a ten-minute ACE target derived from long term CPS1 control. 8. A method of power distribution using AGC, the method comprising: determining a CPS green zone; operating an AGC system of an EMS in the determined CPS green zone; and outputting electricity to a plurality of loads from a plurality of generating resources under the control of the AGC operating in the CPS green zone. 9. The method of claim 8 wherein the CPS green zone is determined based upon an intersection of CPS1 and CPS2 operating limits. 10. The method of claim 8 wherein the CPS green zone is defined by an upper boundary determined based on area control error (ACE) and a first portion of a pre-defined percentage CPS1 compliance curve and a lower boundary determined based on negative ACE and a second portion of the pre-defined percentage CPS1 compliance curve. 11. The method of claim 8 wherein the energy management system includes a predictive CPS1 control module operative to determine a one-minute area control error (ACE) target for short term CPS1 control based on CPS1 performance statistics over a most recent approximate one year period. 12. The method of claim 8 wherein the energy management system includes a predictive CPS2 control module operative to determine a ten-minute ACE target for short term CPS2 control based on CPS2 performance statistics over a current month up to a current moment. 13. The method of claim 8 wherein the energy management system includes an instantaneous CPS1 control module operative to determine an amount of control effort for CPS1 control based on a one-minute ACE target derived from long term CPS1 control. 14. The method of claim 8 wherein the energy management system includes an instantaneous CPS2 control module operative to determine an amount of control effort for CPS2 control based on a ten-minute ACE target derived from long term CPS1 control. 15. An energy management system (EMS) comprising: a processor in communication with a plurality of power generating resources; and a memory storing instructions executable on the processor, the instructions being operable to: determine a CPS green zone; operate an AGC system of the EMS in the determined CPS green zone; and output electricity to the loads from the resources under the control of the AGC operating in the green zone. 16. The EMS of claim 15 wherein the CPS green zone is determined based upon an intersection of CPS1 and CPS2 operating limits and is defined by an upper boundary determined based on area control error (ACE) and a first portion of a pre-defined percentage CPS1 compliance curve and a lower boundary determined based on negative ACE and a second portion of the pre-defined percentage CPS1 compliance curve. 17. The EMS of claim 15 wherein the energy management system includes a predictive CPS1 control module operative to determine a one-minute area control error (ACE) target for short term CPS1 control based on CPS1 performance statistics over a most recent approximate one year period. 18. The EMS of claim 15 wherein the energy management system includes a predictive CPS2 control module operative to determine a ten-minute ACE target for short term CPS2 control based on CPS2 performance statistics over a current month up to a current moment. 19. The EMS of claim 15 wherein the energy management system includes an instantaneous CPS1 control module operative to determine an amount of control effort for CPS1 control based on a one-minute ACE target derived from long term CPS1 control. 20. The EMS of claim 15 wherein the energy management system includes an instantaneous CPS2 control module operative to determine an amount of control effort for CPS2 control based on a ten-minute ACE target derived from long term CPS1 control.