Apparatus and method for controlling EGR valve

What is claimed is: 1. An apparatus for controlling an EGR valve, the apparatus comprising: a measurement unit configured to measure at least one operation condition of an engine system; a fresh air amount setting unit configured to set a target amount of fresh air based on the operation condition; a fresh air amount sensor configured to measure a current amount of fresh air introduced through an intake line; a control calculation unit configured to set a signal for controlling an opening degree of the EGR valve so that the current amount of fresh air follows the target amount of fresh air; an identifier configured to simulate an input and an output of the engine system by predicting the output of the engine system, comparing the predicted output with actual output of the engine system, and updating parameters of the identifier so that the output of engine system becomes equal to the predicted output of the engine system, and output engine system input-output sensitivity which is a ratio of a change rate of the current amount of fresh air to a change rate of the opening degree of the EGR valve; and a gain setting unit configured to set at least one gain, which is used for the calculation of the control calculation unit, according to an operation condition of the engine system, wherein the gain is divided by the engine system input-output sensitivity, and the control calculation unit corrects the gain in accordance with the operation condition of an engine system, by dividing the gain by the engine system input-output sensitivity. 2. The apparatus of claim 1 , wherein the operation condition includes at least one of a rotational speed of an engine, a fuel injection amount, and the boost pressure of the control calculation unit 40 , which affect a change in amount of fresh air are inputted the identifier. 3. The apparatus of claim 1 , wherein the identifier is a neural network model, and the parameters are included in the neural network model. 4. The apparatus of claim 3 , wherein the neural network model includes an input layer neuron, a hidden layer neuron, and an output layer neuron, and the operation condition is inputted to the input layer neuron through a tapped delay line (TDL). 5. The apparatus of claim 1 , wherein the target amount of fresh air is obtained by inputting the operation condition to a lookup table. 6. The apparatus of claim 1 , wherein at least one gain, which is divided by the engine system input-output sensitivity, is a preset constant. 7. The apparatus of claim 1 , further comprising: a substractor configured to calculate a control error by comparing the target amount of fresh air with the current amount of fresh air, and output the control error to the control calculation unit. 8. The apparatus of claim 1 , wherein the gain includes a proportional gain and an integral gain. 9. A method of controlling an EGR valve, the method comprising: measuring at least one operation condition of an engine system and a current amount of fresh air; setting a target amount of fresh air based on the operation condition; calculating, based on the operation condition, engine system input-output sensitivity which is a ratio of a change rate of the current amount of fresh air to a change rate of an opening degree of the EGR valve; calculating a control error by comparing the target amount of fresh air with the current amount of fresh air; setting at least one gain, which is used for the calculation of the control calculation unit, according to an operation condition of the engine system; dividing the gain by the engine system input-output sensitivity; correcting the gain in accordance with the operation condition of an engine system, by dividing the gain by the engine system input-output sensitivity; determining the opening degree of the EGR valve so that the current amount of fresh air follows the target amount of fresh air; and controlling the EGR valve, wherein the calculating of the engine system input-output sensitivity comprises simulating an input and an output of the engine system by predicting the output of the engine system, comparing the predicted output with actual output of the engine system, and updating parameters of the identifier so that the output of engine system becomes equal to the predicted output of the engine system. 10. The method of claim 9 , wherein the operation condition includes at least one of a rotational speed of an engine, a fuel injection amount, and the boost pressure. 11. The method of claim 9 , wherein the setting of the target amount of fresh air includes obtaining the target amount of fresh air by inputting the operation condition to a lookup table. 12. The method of claim 9 , wherein the engine system input-output sensitivity is calculated by an identifier that uses a neural network model. 13. The method of claim 12 , wherein the neural network model includes an input layer neuron, a hidden layer neuron, and an output layer neuron, and the operation condition is inputted to the input layer neuron through a tapped delay line (TDL). 14. The method of claim 9 , wherein the gain, which is divided by the engine system input-output sensitivity, is a preset constant.