Abstract: Embodiments of the invention provide systems, methods, and apparatus for receiving input information including at least one of generator parameters, energy output requirements, fuel cost, fuel availability, and a maintenance schedule; creating a resource model based on the input information wherein creating the resource model includes linearizing a quadratic objective function and linearizing a quadratic gas constraints function; generating an optimized operating schedule, fuel mix, and allocation plan from the resource model based on the input information; and controlling the generator resources to optimally meet energy output requirements using the operating schedule fuel mix, and allocation plan. Numerous other aspects are provided.

Abstract: Embodiments of the invention provide systems, methods, and apparatus for receiving input information including at least one of generator parameters, energy output requirements, fuel cost, fuel availability, and a maintenance schedule; creating a multi-state resource model based on the input information; generating an optimized operating schedule from the multi-state resource model based on the input information; and controlling the multi-state resources to optimally meet energy output requirements using the operating schedule. Numerous other aspects are provided.

Abstract: Embodiments of the invention provide systems, methods, and apparatus for receiving input information including at least one of generator parameters, energy output requirements, fuel cost, fuel availability, and a maintenance schedule; creating a resource model based on the input information wherein creating the resource model includes linearizing a quadratic objective function and linearizing a quadratic gas constraints function; generating an optimized operating schedule, fuel mix, and allocation plan from the resource model based on the input information; and controlling the generator resources to optimally meet energy output requirements using the operating schedule fuel mix, and allocation plan. Numerous other aspects are provided.

Abstract: A method and system is provided for optimizing the performance of a power generation and distribution system that monitors the performance of a power system, detects disturbances and calculates statistical information, uses historical performance data and economic factors to analyze and control the production of power.

Abstract: A method and system for dispatching available generation resources to supply a given load in a control area. Generating units are each assigned a temporal trajectory of output power over consecutive time intervals. The allocation of available resources are assigned so as to minimize costs associated with meeting changing loads.

Abstract: Certain exemplary embodiments provide a method comprising: for an electrical power system comprising a plurality of committed electrical power generating units: for each of the committed electrical power generating units, obtaining an optimal power output temporal trajectory, the optimal power output temporal trajectory constrained by a ramping limit of the committed electrical power generating unit; obtaining an optimal power reserve temporal trajectory for each of the committed electrical power generating units; and assigning each of the optimal power output temporal trajectories to the respective electrical power generating units so that, over a predetermined consecutive set of time intervals, an integrated cost of system power output is minimized and a system reserve requirement is met.

Abstract: Certain exemplary embodiments provide a method comprising: detecting a NERC disturbance in an electrical power system; determining a first corrective action to return the electrical power system to a pre-disturbance level within a predetermined disturbance recovery time; determining a second corrective action to cause the electrical power system to meet one or more predefined NERC CPS compliance target values; and providing a corrective control signal to the electrical power system.

Abstract: A method and system is provided for optimizing the performance of a power generation and distribution system that monitors the performance of a power system, detects disturbances and calculates statistical information, uses historical performance data and economic factors to analyze and control the production of power. Load demands are predicted by utilizing very short term load forecasts that are based on historical load data, demand patterns and short term load forecasts. Generating units are each assigned a temporal trajectory of output power over consecutive time intervals. The allocation of available resources is assigned so as to minimize costs associated with meeting changing loads.

Abstract: Certain exemplary embodiments provide a method comprising: detecting a NERC disturbance in an electrical power system; determining a first corrective action to return the electrical power system to a pre-disturbance level within a predetermined disturbance recovery time; determining a second corrective action to cause the electrical power system to meet one or more predefined NERC CPS compliance target values; and providing a corrective control signal to the electrical power system.

Abstract: A method and system is provided for optimizing the performance of a power generation and distribution system that monitors the performance of a power system, detects disturbances and calculates statistical information, uses historical performance data and economic factors to analyze and control the production of power.

Abstract: Certain exemplary embodiments provide a method comprising: for an electrical power system comprising a plurality of committed electrical power generating units: for each of the committed electrical power generating units, obtaining an optimal power output temporal trajectory, the optimal power output temporal trajectory constrained by a ramping limit of the committed electrical power generating unit; obtaining an optimal power reserve temporal trajectory for each of the committed electrical power generating units; and assigning each of the optimal power output temporal trajectories to the respective electrical power generating units so that, over a predetermined consecutive set of time intervals, an integrated cost of system power output is minimized and a system reserve requirement is met.

Abstract: A method and system for dispatching available generation resources to supply a given load in a control area. Generating units are each assigned a temporal trajectory of output power over consecutive time intervals. The allocation of available resources are assigned so as to minimize costs associated with meeting changing loads.

Abstract: A method and system is provided for optimizing the performance of a power generation and distribution system that monitors the performance of a power system, detects disturbances and calculates statistical information, uses historical performance data and economic factors to analyze and control the production of power. Load demands are predicted by utilizing very short term load forecasts that are based on historical load data, demand patterns and short term load forecasts. Generating units are each assigned a temporal trajectory of output power over consecutive time intervals. The allocation of available resources is assigned so as to minimize costs associated with meeting changing loads.