Transient simulation modeling for dynamic remedial action schemes using real-time protection setting updates

What is claimed is: 1. An electrical power system with distributed coordinated control per a dynamic remedial action scheme, comprising: a communication network to facilitate communication between distributed controllers and at least one coordination controller; a plurality of distributed controllers, at least some of which monitor portions of the electrical power system via electrical measurements and implement protective control operations according to protection settings, wherein at least one of the plurality of distributed controllers implements protective control operations based on adaptive protection settings that are dynamically modified based on electrical measurements of the electric power system; a coordination controller to coordinate higher-level protective operations via the plurality of distributed controllers, the coordination controller comprising: a topology module to receive topology information from at least one of the distributed controllers via the communications network; an assessment module to receive electrical measurement data from at least one of the plurality of distributed controllers via the communications network; a protection settings module to receive updated protection settings from at least one distributed controllers with adaptive protection settings, via the communications network, wherein the updated protection settings comprise at least one setting in which at least one of the plurality of distributed controllers protects at least portions of the electrical power system via a discontinuous control action; a remedial action scheme (RAS) module to define a set of protective control operations to be implemented by distributed controllers in response to a corresponding set of defined system conditions. 2. The electrical power system of claim 1 , wherein the RAS module dynamically modifies the set of protective control operations to be implemented in response to the corresponding set of defined system conditions each time the protection settings module receives updated protection settings. 3. The electrical power system of claim 1 , wherein the protection settings module receives the updated protection settings from the at least one distributed controller in real time. 4. The electrical power system of claim 1 , wherein each of the plurality of distributed controllers comprises an intelligent electronic device with a processor, memory, and at least one sensor component to receive electrical measurements from the electrical power system and independently determine protective control operations to be implemented based on individual protection settings. 5. The electrical power system of claim 1 , wherein the coordination controller receives information from at least one distributed controller outside of a region protected by the coordination controller for the RAS module to define the set of protective control operations to be implemented by distributed controllers within the region protected by the coordination controller in response to the corresponding set of defined system conditions. 6. The electrical power system of claim 5 , wherein at least one of the system conditions in the set of defined system conditions is a system condition external to the region protected by the coordinate controller. 7. The electrical power system of claim 5 , wherein the coordination controller receives information from the at least one distributed controller outside of the region protected by the coordination controller from a multi-regional coordination controller. 8. The electrical power system of claim 1 , wherein the coordination controller further comprises a component model module to perform a transient model simulation based on the received topology information, electrical measurement data, and the protection settings, and wherein the RAS module uses results of the transient model simulation to define the set of protective control operations to be implemented by distributed controllers in response to the corresponding set of defined system conditions. 9. The electrical power system of claim 8 , wherein the component model module of the coordination controller is configured to model a response of at least one of: an instantaneous overcurrent element; an inverse-time overcurrent element; a thermal element; a reactive power control element; a distance element; a current differential element; a load encroachment element; an impedance characteristic control element; an undervoltage element; a directional element; a negative sequence current element; a loss of excitation element; a negative sequence voltage element; an overvoltage element; a ground fault element; a high-impedance fault element; an underfrequency element; and an overfrequency element. 10. The electrical power system of claim 8 , wherein the component model of the coordination controller is configured to model a response of one a reactive power controller, a capacitor bank controller, a transformer tap changing controller, a generator over-excitation limit controller, a governor controller, a power system stabilizer controller, a shunt reactor controller, a DC line controller, and an inverter controller. 11. A method for generating a dynamic remedial action scheme for distributed coordinated control to an electrical power system, comprising: receiving, by a coordination controller, topology information from one or more of a plurality of distributed controllers, wherein the coordination controller is configured to coordinate protection of the electrical power system via the plurality of distributed controllers, and wherein at least one of the plurality of distributed controllers is configured to implement a protective control operation; receiving, by the coordination controller, electric power measurement data from one or more of the plurality of distributed controllers; conducting model simulations of the electrical power system based on the topology information, electric power measurement data, and initial protection settings for each of the plurality of distributed controllers; defining a remedial action scheme (RAS) for at least a portion of the electrical power system that includes a first protective control operation to be implemented by one of the plurality of distributed controllers in response to a defined event; receiving, by the coordinate controller, an updated protection setting from at least one of the plurality of distributed controllers, wherein the updated protection setting comprises a setting in which at least one of the plurality of distributed controllers protects at least portions of the electrical power system via a discontinuous control action; and dynamically updating the RAS to modify the first protective control operation based on the updated protection setting. 12. The method of claim 11 , wherein the coordination controller is configured to provide distributed coordinate control to a first of a plurality of regions of the electrical power system, and wherein each of the plurality of distributed controllers is within the first region. 13. The method of claim 11 , wherein the coordination controller is configured to provide distributed coordinate control to a first of a plurality of regions of the electrical power system, and wherein at least one of the plurality of distributed controllers is outside of the first region. 14. The method of claim 13 , wherein protective control operations of the RAS are to be implemented by distributed controllers within the first region. 15. The method of claim 11 , wherein receiving the updated protection setting from at least one of the plurality of distributed controll