Engine controlling emissions during transient operations

What is claimed is: 1. A method of operating an internal combustion engine having an exhaust gas recirculation system, a fuel injection system, an electronic control module, an engine speed sensor, an engine torque estimator, a mass air flow sensor, an exhaust gas temperature sensor, and an air intake throttle, the method comprising: monitoring output of the engine speed sensor, the mass air flow sensor, the exhaust gas temperature sensor, and the engine torque estimator of an engine with an electronic control module; determining if the engine is operating in one of either a transient torque condition and a non-transient torque condition based upon output of at least one of the engine speed sensor, the mass air flow sensor, the exhaust gas temperature sensor, and the engine torque estimator; setting fuel injection timing of a fuel injection system based upon if the engine is operating in a transient torque condition or a non-transient torque condition; setting an exhaust gas recirculation valve position of an exhaust gas recirculation system upon if the engine is operating in a transient torque condition or a non-transient torque condition; and setting an intake throttle position of an air intake throttle based upon if the engine is operating in a transient torque condition or a non-transient torque condition; wherein the fuel injection timing, the exhaust gas recirculation valve position, and the intake throttle position are controlled to limit NOx emissions to under a pre-determined level when the engine is operating in a transient torque condition and wherein the fuel injection timing, the exhaust gas recirculation valve position, and the intake throttle position are controlled to limit particulate matter emissions to under a pre-determined level when the engine is operating in a non-transient torque condition. 2. The method of claim 1 , wherein the determining if the engine is operating in a transient condition or a non-transient torque condition is based upon changes in engine speed sensor outputs over time. 3. The method of claim 1 , wherein the determining if the engine is operating in a transient condition or a non-transient torque condition is based upon changes in engine torque estimator outputs over time. 4. The method of claim 1 , wherein the determining if the engine is operating in a transient condition or a non-transient torque condition is based upon changes in mass air flow sensor outputs over time. 5. The method of claim 1 , wherein the determining if the engine is operating in a transient condition or a non-transient torque condition is based upon changes in exhaust gas temperature sensor outputs over time. 6. The method of claim 1 , wherein the exhaust gas recirculation valve position is set to provide a higher rate of exhaust gas when the engine is operating in a transient torque condition. 7. The method of claim 1 , wherein the fuel injection timing is set to inject fuel at a later time when the engine is operating in a transient torque condition. 8. The method of claim 1 , wherein the intake throttle position is set to provide a reduced amount of intake air when the engine is operating in a transient torque condition. 9. The method of claim 1 , wherein the exhaust gas recirculation valve position is set to provide a lower rate of exhaust gas, the fuel injection timing is set to inject fuel at an earlier time, and the intake throttle position is set to provide an increased amount of intake air when the engine is operating in a non-transient torque condition. 10. A control system for an internal combustion engine having an exhaust gas recirculation system, the control system comprising: an electronic control module having a memory and a processor; an engine speed sensor disposed in communication with the electronic control module; a mass air flow sensor disposed in communication with the electronic control module; an exhaust gas temperature sensor disposed in communication with the electronic control module; an engine torque output estimator disposed in communication with the electronic control module; an exhaust gas recirculation valve being adjustable between an open position and a closed position, the exhaust gas recirculation valve being adjusted by an exhaust gas recirculation actuator, the exhaust gas recirculation actuator disposed in communication with the electronic control module; a fuel injector being disposed in communication with the electronic control module, the electronic control module controlling a start of fuel injection time of the fuel injector; and wherein the electronic control module determines if the internal combustion engine is operating in a transient torque condition or a non-transient torque condition based upon at least one of output of the engine speed sensor, the mass air flow sensor, the exhaust gas temperature sensor, and the engine torque output estimator, and the electronic control module controls the exhaust gas recirculation valve actuator to adjust the position of the exhaust gas recirculation valve to limit the NOx emissions below a pre-determined level when the engine is operating in a transient torque condition and further adjusts the position of the exhaust gas recirculation valve to limit particulate matter emissions below a pre-determined level when the engine is operating in a non-transient torque condition. 11. The control system for an internal combustion engine of claim 10 , wherein the exhaust gas recirculation valve is adjusted to a more open position when the engine is operating in a transient torque condition. 12. The control system for an internal combustion engine of claim 10 , wherein the electronic control module determines if the internal combustion engine is operating in a transient torque condition or non-transient torque condition based upon at least one of the output of the engine speed sensor, the mass air flow sensor, the exhaust gas temperature sensor, and the engine torque output estimator and the electronic control module adjusts a start of fuel injection timing to facilitate limiting the NOx emissions below a pre-determined level when the engine is operating in a transient torque condition and further limits the start of the fuel injection timing to limit the particulate matter emissions below a pre-determined level when the engine is operating in a non-transient torque condition. 13. The control system for an internal combustion engine of claim 12 , wherein the start of fuel injection timing is adjusted to a later time when the engine is operating in a transient torque condition. 14. The control system for an internal combustion engine of claim 10 , further comprising: an intake throttle valve being adjustable from an open position to a closed position, the intake throttle valve being adjusted by a throttle actuator, the throttle actuator disposed in communication with the electronic control module; and wherein the electronic control module determines if the internal combustion engine is operating in a transient condition based upon output of the engine speed sensor and the engine torque output estimator, and the electronic control module adjusts a position of the intake throttle to limit the NOx emissions below a pre-determined level when the engine is operating in a transient torque condition and further adjusts the position of the intake throttle actuator to limit the particulate emissions below a pre-determined level when the engine is operating in a non-transient torque condition. 15. The control system for an internal combustion engine of claim 10 , wherein the intake throttle is adjusted to