Fresh air flow and exhaust gas recirculation control system and method

We claim: 1. A fresh air and exhaust gas control method for an engine having an air system with an air throttle, an exhaust gas recirculation (EGR) valve, an intake manifold, a charge air cooler, an exhaust manifold, and a turbocharger, the control method comprising: monitoring parameters of the engine in an operational state using a plurality of sensors, the plurality of sensors including an intake manifold pressure sensor and an exhaust manifold pressure sensor; generating engine state estimates using an engine observer model, the engine observer model representing the intake manifold volume, the exhaust manifold volume, and the charge air cooler volume, the engine state estimates based on the monitored engine parameters from the plurality of sensors; generating a turbocharger rotational speed estimate using a turbocharger model; calculating a fresh air flow correction factor based on the differences between the measured engine states and the engine state estimates and inputting the fresh air flow correction factor to the engine observer model; determining a desired air throttle position and a desired EGR valve position based on setpoint commands, the monitored engine parameters, the fresh air flow correction factor, the engine state estimates, and the turbocharger rotational speed estimate; adjusting the air throttle based on the desired air throttle position; and adjusting the EGR valve based on the desired EGR valve position. 2. The fresh air and exhaust gas control method of claim 1 , wherein the plurality of sensors excludes a mass air flow sensor. 3. The fresh air and exhaust gas control method of claim 1 , wherein the turbocharger comprises a compressor and a turbine, and wherein the turbocharger rotational speed estimate is used to estimate a flow through the compressor. 4. The fresh air and exhaust gas control method of claim 3 , wherein the flow through the compressor is used to estimate an inlet pressure to the charge air cooler. 5. The fresh air and exhaust gas control method of claim 3 , wherein generating engine state estimates using an engine observer model includes generating an estimate of intake manifold pressure. 6. The fresh air and exhaust gas control method claim of 1 , wherein generating engine state estimates using an engine observer model includes generating estimates of the inlet and outlet flows of each of the intake manifold volume, exhaust manifold volume, and charge air cooler volume. 7. The fresh air and exhaust gas control method of claim 1 , wherein the turbocharger comprises a compressor and a turbine, the control method further comprising: calculating a turbine intake correction factor based on the differences between the measured engine states and the engine state estimates and inputting the turbine intake correction factor to the engine observer model, wherein the determining a desired air throttle position and a desired EGR valve position includes determining a desired air throttle position and a desired EGR valve position based on the turbine intake correction factor. 8. The fresh air and exhaust gas control method of claim 1 , further comprising: calculating an incremental EGR correction factor based on the differences between the measured engine states and the engine state estimates and inputting the incremental EGR correction factor to the engine observer model, wherein the determining a desired air throttle position and a desired EGR valve position includes determining a desired air throttle position and a desired EGR valve position based on the incremental EGR correction factor. 9. The fresh air and exhaust gas control method of claim 8 , wherein the fresh air flow correction factor and incremental EGR correction factor are applied to a feed forward determination of the desired air throttle position and the desired EGR valve position. 10. The fresh air and exhaust gas control method of claim 1 , wherein the turbocharger is a two-stage turbocharger having a first and a second compressor in a series arrangement, wherein generating engine state estimates includes generating an estimate of an interstage pressure between the first compressor and the second compressor. 11. The fresh air and exhaust gas control method of claim 10 , wherein generating the estimate of an interstage pressure between the first compressor and the second compressor includes estimating a pressure between the first compressor and the second compressor at which the mass flow through the first compressor equals the mass flow through the second compressor. 12. The fresh air and exhaust gas control method of claim 1 , further comprising: calculating a desired intake manifold diluent mass fraction based on a desired diluent-to-air ratio setpoint, an engine speed and a number of cylinders in the engine; calculating a desired EGR mass flow based on the desired intake manifold diluent mass fraction; calculating the desired EGR valve position based on the desired EGR mass flow; calculating a desired intake manifold pressure based on the desired diluent-to-air ratio setpoint and the number of cylinders in the engine; calculating a desired air throttle mass flow based on the desired intake manifold pressure; and calculating the desired air throttle position based on the desired air throttle mass flow. 13. A fresh air and exhaust gas control method for an engine having an air system with an air throttle, an exhaust gas recirculation (EGR) valve, an intake manifold, a charge air cooler, an exhaust manifold, and a turbocharger including a turbine, the control method comprising: monitoring parameters of the engine in an operational state using a plurality of sensors, the plurality of sensors including an intake manifold pressure sensor and an exhaust manifold pressure sensor; generating engine state estimates using an engine observer model, the engine observer model representing the intake manifold volume, the exhaust manifold volume, and the charge air cooler volume, the engine state estimates based on the monitored engine parameters from the plurality of sensors; generating a turbocharger rotational speed estimate using a turbocharger model; calculating a turbine intake correction factor based on the differences between measured engine states and the engine state estimates and inputting the turbine intake correction factor to the engine observer model; determining a desired air throttle position and a desired EGR valve position based on setpoint commands, the monitored engine parameters, the turbine intake correction factor, the engine state estimates, and the turbocharger rotational speed estimate; adjusting the air throttle based on the desired air throttle position; and adjusting the EGR valve based on the desired EGR valve position. 14. The fresh air and exhaust gas control method of claim 13 , wherein the plurality of sensors excludes a mass air flow sensor. 15. The fresh air and exhaust gas control method of claim 13 , further comprising: calculating an incremental EGR correction factor based on the differences between the measured engine states and the engine state estimates and inputting the incremental EGR correction factor to the engine observer model, wherein the determining a desired air throttle position and a desired EGR valve position includes determining a desired air throttle position and a desired EGR valve position based on the incremental EGR correction factor.