Vehicle propulsion system and method of controlling the same

What is claimed is: 1. A system comprising: a controller configured to generate a control signal that dictates operation of a propulsion system of a vehicle having an engine and an electrically driven superturbocharger or a turbo-compounding turbine, the engine having cylinders that operate according to a four stroke cycle, wherein, prior to determining that the vehicle is one or more of entering into or traveling within an airflow restricting area, the four stroke cycle of the cylinders in the engine includes one injection of fuel, wherein, responsive to determining that the vehicle is one or more of entering into or traveling within the airflow restricting area, the controller is configured to change the operation of the propulsion system of the vehicle by both reducing a power output by the engine and adding a second injection of the fuel into the cylinders during a power stroke of the four stroke cycle of the cylinders, wherein the controller is configured to reduce the power output by the engine to increase a power output of the electrically driven superturbocharger or the turbo-compounding turbine to propel the vehicle through the airflow restricting area, and wherein the controller is configured to reduce the power output by the engine by changing injection of fuel into cylinders of the engine by delaying a fuel injection time of the cylinders relative to the fuel injection time of the cylinders prior to determining that the vehicle is one or more of entering into or traveling within the airflow restricting area. 2. The system of claim 1 , wherein the controller is configured to change the operation of the propulsion system by reducing a speed at which the electrically driven superturbocharger or the turbo-compounding turbine operates. 3. The system of claim 1 , wherein the controller is configured to change the operation of the propulsion system in order to increase a temperature of exhaust output by the engine and provided to the electrically driven superturbocharger or the turbo-compounding turbine to drive the electrically driven superturbocharger or the turbo-compounding turbine. 4. The system of claim 3 , wherein the temperature of the exhaust output from the engine that is increased also increases the power output from the electrically driven superturbocharger or the turbo-compounding turbine. 5. The system of claim 1 , wherein the controller is configured to determine entry of the vehicle into the airflow restricting area. 6. The system of claim 1 , wherein the controller is configured to autonomously change the operation of the propulsion system. 7. A method comprising: controlling operation of a propulsion system of a vehicle having an engine and an electrically driven superturbocharger or a turbo-compounding turbine during movement of the vehicle outside of an airflow restricting area, the engine having cylinders that operate according to a four stroke cycle that includes one injection of fuel; determining entry of the vehicle into the airflow restricting area; and changing the operation of the propulsion system of the vehicle by reducing a power output by the engine during movement of the vehicle inside the airflow restricting area and adding a second injection of the fuel into the cylinders during a power stroke of the four stroke cycle of the cylinders responsive to determining that the vehicle entered the airflow restricting area, wherein reducing the power output by the engine increases a power output of the electrically driven superturbocharger or the turbo-compounding turbine to propel the vehicle through the airflow restricting area, and wherein reducing the power output by the engine comprises changing injection of fuel into cylinders of the engine by delaying a fuel injection time of the cylinders relative to the fuel injection time of the cylinders prior to determining entry of the vehicle into the airflow restricting area. 8. The method of claim 7 , wherein changing the operation of the propulsion system increases a temperature of exhaust output by the engine and provided to the electrically driven superturbocharger or the turbo-compounding turbine to drive the electrically driven superturbocharger or the turbo-compounding turbine. 9. The method of claim 8 , wherein the temperature of the exhaust output from the engine that is increased also increases the power output from the electrically driven superturbocharger or the turbo-compounding turbine. 10. The method of claim 7 , wherein the entry of the vehicle into the airflow restricting area is determined as the vehicle enters into a tunnel. 11. The method of claim 7 , wherein changing the operation of the propulsion system is performed autonomously by a controller. 12. A system comprising: a controller configured to control a fuel injection time of one or more cylinders in an engine of a propulsion system of a vehicle that also includes an electrically driven superturbocharger or a turbo-compounding turbine, the one or more cylinders operating according to a four stroke cycle, wherein, prior to determining that the vehicle is one or more of entering into or traveling within an airflow restricting area, the four stroke cycle of the cylinders in the engine includes one injection of fuel, wherein, responsive to determining that the vehicle is one or more of entering into or traveling within an airflow restricting area, the controller is configured to reduce a power output by the engine by (a) delaying the fuel injection time of the one or more cylinders of the engine of the vehicle relative to the fuel injection time of the cylinders prior to determining entry of the vehicle into the airflow restricting area and (b) adding a second injection of the fuel into the cylinders during a power stroke of the four stroke cycle of the cylinders. 13. The system of claim 12 , wherein the controller is configured to change the fuel injection time in order to increase a temperature of exhaust output by the engine and provided to the electrically driven superturbocharger or the turbo-compounding turbine to drive the electrically driven superturbocharger or the turbo-compounding turbine. 14. The system of claim 13 , wherein the temperature of the exhaust output from the engine that is increased also increases the power output from the electrically driven superturbocharger or the turbo-compounding turbine. 15. The system of claim 12 , wherein the controller is configured to determine entry of the vehicle into the airflow restricting area. 16. The system of claim 12 , wherein the controller is configured to autonomously change the fuel injection time.