Apparatus and method for controlling air system of diesel engine

What is claimed is: 1. An apparatus for controlling an air system of a diesel engine in a steady state, wherein the air system comprises an exhaust gas recirculation system and a turbocharging system, the apparatus comprises: a memory storing computer executable components; and a processor configured to execute the following computer executable components in the stored memory: a working condition acquisition device configured to acquire one or more parameters indicating an actual working condition of the diesel engine; a decoupling computation device coupled to the working condition acquisition device and to receive the one or more parameters from the working condition acquisition device, the decoupling computation device configured to determine a decoupling transfer function by computing a set of coefficients of the decoupling transfer function based on the one or more parameters and a transfer function characterizing the diesel engine, wherein the transfer function is calibrated based on working condition data of the diesel engine in a steady working area; an air system parameter processing device coupled to the working condition acquisition device and to receive the one or more parameters from the working condition acquisition device, the air system parameter processing device configured to process at least one parameter of the one or more parameters indicating the state of the air system to determine an input to the decoupling transfer function; and a signal generation device coupled to the decoupling computation device and the air system parameter processing device, the signal generation device to receive the decoupling transfer function from the decoupling computation device and to receive the input to the decoupling transfer function from the air system parameter processing device, the signal generation device configured to generate a first driving signal and a second driving signal according to the decoupling transfer function and the input to the decoupling transfer function, the first driving signal for controlling the exhaust gas recirculation system and the second driving signal for controlling the turbocharging system. 2. The apparatus according to claim 1 , wherein the transfer function of the diesel engine is calibrated based on working condition data of the diesel engine at a steady state working condition equilibrium point in the steady working area, that includes at least one steady state working condition equilibrium points. 3. The apparatus according to claim 2 , wherein the steady state working condition equilibrium point is an intersection point of an equal intake air pressure curve and an equal exhaust gas recirculation flow curve of the diesel engine in the steady working area. 4. The apparatus according to claim 1 , wherein the transfer function includes independent variables including a rotating speed and a fuel ejection ratio of the diesel engine, and wherein the working condition acquisition device comprises: a rotating speed acquisition device configured to acquire a parameter indicating the rotating speed of the diesel engine; and a fuel ejection ratio device configured to acquire a parameter indicating the fuel ejection ratio of the diesel engine. 5. The apparatus according to claim 1 , wherein the air system parameter processing device comprises: a first sub-device configured to determine a first error between an actual exhaust gas recirculation flow ratio and a target exhaust gas recirculation flow ratio of the diesel engine; a second sub-device configured to perform PID processing to the first error of the exhaust gas recirculation flow ratio; a third sub-device configured to determine a second error between an actual intake air pressure and a target intake air pressure of the diesel engine; and a fourth sub-device configured to perform PID processing to the second error of the intake air pressure. 6. The apparatus according to claim 5 , wherein the working condition acquisition device comprises: an exhaust gas recirculation flow ratio acquisition sub-device configured to acquire a parameter indicating the actual exhaust gas recirculation flow ratio of the diesel engine and to provide the parameter indicating the actual exhaust gas recirculation flow ratio to the air system parameter processing device; and an intake air pressure acquisition device configured to acquire a parameter indicating actual intake air pressure of the diesel engine and to provide the parameter indicating the actual intake air pressure to the air system parameter processing device. 7. The apparatus according to claim 1 , wherein the decoupling computation device comprises: a sub-device configured to compute the decoupling transfer function as an inverse of the transfer function. 8. The apparatus according to claim 1 , wherein the first driving signal is used for controlling an opening degree of an exhaust gas recirculation valve of the exhaust gas recirculation system, and wherein the second drive signal is used for controlling an opening degree of a supercharging valve of the turbocharging system. 9. The apparatus according to claim 1 , wherein the apparatus is implemented using at least one of a system-on-chip SoC, an integrated circuit IC, and an application-specific integrated circuit ASIC. 10. A diesel engine, comprising: a cylinder body; an intake air pipe coupled to an inlet end of the cylinder body and configured to convey gas to the cylinder body; an exhaust pipe coupled to an outlet end of the cylinder body and configured to emit exhaust gas from combustion within the cylinder body; a fuel ejection system coupled to the cylinder body and configured to eject fuel into the cylinder body; an air system, comprising: an exhaust gas recirculation system coupled to the exhaust pipe and the intake air pipe and configured to convey a part of the exhaust gas from the exhaust pipe back to the cylinder body via the intake air pipe; and a turbocharging system coupled to the exhaust pipe and configured to supercharge the intake air pressure of the cylinder body using the exhaust gas from the exhaust pipe; and a control unit, comprising: a working condition acquisition device configured to acquire one or more parameters indicating an actual working condition of the diesel engine; a decoupling computation device coupled to the working condition acquisition device and to receive the one or more parameters from the working condition acquisition device, the decoupling computation device configured to determine a decoupling transfer function by computing a set of coefficients of the decoupling transfer function based on the one or more parameters and a transfer function characterizing the diesel engine, wherein the transfer function is calibrated based on working condition data of the diesel engine in a steady working area; an air system parameter processing device coupled to the working condition acquisition device and to receive the one or more parameters from the working condition acquisition device, the air system parameter processing device configured to process at least one parameter of the one or more parameters indicating a state of the air system to determine an input to the decoupling transfer device; and a signal generation device coupled to the decoupling computation device and the air system parameter processing device, the signal generation device to receive the decoupling transfer function from the decoupling computation device and to receive the input to the decoupling transfer function from the air system parameter processing device, the signal generation device configured to generate a first driving signal and a second driving signal according to the decoupling transfer function an