Techniques for tracking exhaust gas constituents through a low pressure exhaust gas recirculation system of a turbocharged gasoline engine

What is claimed is: 1. A control system for a vehicle including a gasoline engine, a turbocharger comprising a wastegate valve, and a low pressure exhaust gas recirculation (LPEGR) system, the LPEGR system comprising an EGR cooler and an EGR valve downstream from the EGR cooler, the LPEGR system being configured to recirculate exhaust gas produced by the engine from an exhaust system of the engine to an induction system of the engine, the control system comprising: a throttle valve disposed in the induction system between a compressor of the turbocharger and an intake port of a cylinder of the engine and configured to control airflow into the engine; a fuel injector configured to inject gasoline into the cylinder; a spark plug configured to generate a spark to ignite a mixture of gas and the gasoline within the cylinder; an exhaust gas concentration sensor upstream from an EGR pickup of the LPEGR system and configured to measure an air/fuel ratio of the exhaust gas; and a controller configured to: receive a measured air/fuel ratio of the exhaust gas from the exhaust gas concentration sensor; determine an air/fuel ratio of the exhaust gas at the EGR pickup point; determine an air/fuel ratio of the exhaust gas at an inlet of the EGR cooler; determine an air/fuel ratio of the exhaust gas at an outlet of the EGR cooler; determine a first exhaust gas fraction and a first fuel fraction at an EGR port upstream from the compressor in the induction system where the exhaust gas mixes with air; determine a set of second exhaust gas fractions and second fuel fractions at a set of respective points in the induction system downstream from the EGR port; and control at least one of the wastegate valve, the throttle valve, the fuel injector, and the spark plug based on the set of second exhaust gas fractions and second fuel fractions to prevent misfires of the engine. 2. The control system of claim 1 , wherein the controller is configured to control the wastegate valve based on a determined second exhaust gas fraction and a determined second fuel fraction at an inlet of the compressor. 3. The control system of claim 2 , wherein the controller is configured to control the throttle valve based on a determined second exhaust gas fraction and a determined second fuel fraction at an inlet of the throttle valve. 4. The control system of claim 3 , wherein the controller is configured to control the fuel injector and the spark plug based on a determined second exhaust gas fraction and a determined second exhaust gas fraction at the cylinder intake port. 5. The control system of claim 4 , wherein the controller is further configured to utilize the determined second exhaust gas fraction and the determined second exhaust gas fraction at the cylinder intake port as part of an EGR condition check upon shutdown and restart of the engine. 6. The control system of claim 1 , wherein the induction system further comprises a differential pressure (dP) valve disposed upstream of the EGR port and downstream from an air filter of the induction system. 7. The control system of claim 6 , wherein the controller determines the exhaust gas fraction and fuel fraction at the EGR mixing point based on the operation of the dP valve. 8. The control system of claim 1 , wherein the controller is configured to divide a flow path of the exhaust gas through the LPEGR system and the induction system into the following distinct portions: (i) a first portion from the exhaust gas concentration sensor to the EGR pickup point; (ii) a second portion from the EGR pickup point to the EGR cooler inlet; (iii) a third portion from the EGR cooler inlet across the EGR cooler to the EGR cooler outlet; (iv) a fourth portion from the EGR cooler outlet across the EGR valve to the EGR port; (v) a fifth portion from the EGR port to the compressor inlet; (vi) a sixth portion from an outlet of the compressor to an inlet of a cold air cooler of the induction system; (vii) a seventh portion across the cold air cooler; (viii) an eighth portion from an outlet of the cold air cooler to an inlet of the throttle valve; and (ix) a ninth portion from an outlet of the throttle valve across an intake manifold of the induction system to the cylinder intake port. 9. The control system of claim 8 , wherein the controller utilizes predetermined information about the configuration of the LPEGR system and the induction system and distinct memory buffers to track (i) the air/fuel ratio of the exhaust gas between the nine distinct portions of the flow path before EGR mixing and (ii) EGR/fuel fractions between the nine distinct potions of the flow path after EGR mixing. 10. The control system of claim 9 , wherein the controller is configured to vary air/fuel ratio data or EGR/fuel fraction data stored in each memory buffer to account for (i) mass changes at the EGR pickup point and the EGR port, (ii) density changes in across the EGR cooler, the compressor, the cold air cooler, and the throttle valve, and (iii) dynamic flows from an outlet of the compressor to the inlet of the cold air cooler and from an outlet of the throttle valve to the cylinder intake port. 11. A method for tracking exhaust gas constituents for a vehicle including a gasoline engine having a turbocharger with a wastegate valve, a throttle valve disposed in an induction system between a compressor of the turbocharger and an intake port of a cylinder, a fuel injector configured to inject gasoline into the cylinder, and a spark configured to generate spark within the cylinder, the vehicle further including a low pressure exhaust gas recirculation (LPEGR) system having an EGR cooler and an EGR valve and being configured to recirculate exhaust gas produced by the engine from an exhaust system to the induction system, the method comprising: receiving, by a controller and from an exhaust gas concentration sensor upstream from an EGR pickup point of the LPEGR system, a measured air/fuel ratio of the exhaust gas; determining, by the controller, an air/fuel ratio of the exhaust gas at the EGR pickup point; determining, by the controller, an air/fuel ratio of the exhaust gas at an inlet of the EGR cooler; determining, by the controller, an air/fuel ratio of the exhaust gas at an outlet of the EGR cooler; determining, by the controller, a first exhaust gas fraction and a first fuel fraction at an EGR port upstream from the compressor in the induction system where the exhaust gas mixes with air; determining, by the controller, a set of second exhaust gas fractions and second fuel fractions at a set of respective points in the induction system downstream from the EGR port; and controlling, by the controller, at least one of the wastegate valve, the throttle valve, the fuel injector, and the spark plug based on the set of second exhaust gas fractions and second fuel fractions to prevent misfires of the engine. 12. The method of claim 11 , further comprising controlling, by the controller, the wastegate valve based on a determined second exhaust gas fraction and a determined second fuel fraction at an inlet of the compressor. 13. The method of claim 12 , further comprising controlling, by the controller, the throttle valve based on a determined second exhaust gas fraction and a determined second fuel fraction at an inlet of the throttle valve. 14. The method of claim 13 , further comprising controlling, by the controller, the fuel injector and the spark plug based on a determined second exhaust gas fraction and a determined second exhaust gas fraction at the cylinder intake port. 15. The method of claim 14 , further comprising u