Valve duty differentiated exhaust gas recirculation control method and exhaust gas recirculation system

What is claimed is: 1. An exhaust gas recirculation (EGR) system, comprising: a controller for implementing a valve duty differentiated control, wherein the valve duty differentiated control: detects an operation region to which acceleration is applied, a mixer region to which a ratio of an air-fuel is applied, and an external factor region to which a cooling water temperature, an air-lean environment condition, and a gear stage are applied as a valve control condition, respectively; determining whether or not an EGR valve duty and the minimum EGR valve duty are applied; and calculates an EGR valve duty, which is set by a target air amount to an intake air amount, by a minimum EGR valve duty depending upon the valve control condition and applying the calculated EGR valve duty for an EGR valve when the calculated minimum EGR valve duty is greater than the EGR valve duty. 2. The EGR system of claim 1 , wherein the controller comprises an operation region condition control map, a mixer condition control map, and an external factor condition control map, and wherein the operation region condition control map includes a target air amount EGR valve duty, an engine operation region EGR valve duty, and a minimum opening EGR valve duty as a table, the mixer condition control map includes a lambda value for the over-rich of a ratio of the air to fuel as a table, and the external factor condition control map includes the cooling water temperature, the intake air amount, and the gear stage as a table. 3. The EGR system of claim 1 , wherein the controller is connected with a sensor, wherein the sensor comprises an accelerator pedal sensor (APS) for detecting an opening degree of an acceleration pedal, a crank position sensor for detecting a rotation location of a crankshaft of an engine, an air amount sensor for detecting fresh air of an intake line connected to the engine, an EGR valve position sensor for detecting the valve opening location of the EGR valve, a lambda sensor for detecting an exhaust gas component of an exhaust line connected to the engine, an injector sensor for detecting fuel injected into each cylinder of the engine, an atmospheric pressure sensor for detecting atmospheric pressure around a vehicle, a cooling water temperature sensor for detecting the cooling water temperature flowing through a cylinder block of the engine, and a shifting sensor for detecting a shifting stage depending upon an operation of a shifting lever. 4. An exhaust gas recirculation gas (EGR) control method, comprising a valve duty differentiated control including: detecting, by a controller, an engine operation region, a mixer region, and an external factor region as a valve control condition for an EGR valve duty correction variable for controlling an EGR system; applying, by the controller, the EGR valve duty correction variable to an EGR valve duty, which is set by a target air amount to an intake air amount, to calculate a minimum EGR valve duty in EGR valve duty cycle during engine operation; and outputting the calculated minimum EGR valve duty to an EGR valve as the EGR valve duty when the calculated minimum EGR valve duty is greater than the EGR valve duty, wherein the valve duty differentiated control includes: a condition control for calculating the EGR valve duty correction variable in each of the engine operation region, the mixer region and the external factor region, a valve duty selection control using an engine operation range suitable for a setting fuel amount, and a valve duty reliability establishment control using the EGR valve duty correction for changing an EGR control mode in the engine operation range out of the setting fuel amount. 5. The EGR control method of claim 4 , wherein the engine operation region uses acceleration or rapid acceleration as the valve control condition, the mixer region uses a ratio of air-fuel in a cylinder of an engine as valve control condition, and the external factor region uses a cooling water temperature, an air-lean environment condition, and a gear stage as valve control condition. 6. The EGR control method of claim 4 , wherein the condition control includes: an operation region condition control for calculating the EGR valve duty correction variable in the engine operation region; a mixer condition control for calculating the EGR valve duty correction variable in the mixer region; and an external factor condition control for calculating the EGR valve duty correction variable in the external factor region. 7. The EGR control method of claim 6 , wherein the operation region condition control calculates a target air amount EGR valve duty, a minimum opening EGR valve duty, an engine operation region EGR valve duty, and an EGR valve lambda target duty as the EGR valve duty correction variable, the mixer condition control calculates a lambda duty correction coefficient as the EGR valve duty correction variable, and the external factor condition control calculates an atmospheric pressure duty correction coefficient, a cooling water temperature duty correction coefficient, and a gear stage duty correction coefficient as the EGR valve duty correction variable. 8. The EGR control method of claim 6 , wherein the operation region condition control performs: detecting the engine operation region by calculating a driver demand torque based on an opening degree of an acceleration pedal; setting the EGR valve duty by the target air amount to the intake air amount by comparing the target air amount determined in the engine operation region with a current air amount; determining a minimum opening EGR valve duty that an effective cross-sectional area of an EGR supply line in the engine operation region is not closed by the EGR valve and further determining an engine operation region EGR valve duty depending upon the engine operation region; and determining the engine operation range depending upon the setting fuel amount by converting the engine operation region EGR valve duty into a full load operation range lambda correction value by a lambda duty correction coefficient of the mixer condition control. 9. The EGR control method of claim 6 , wherein the mixer condition control performs: determining lambda sensor activation using a dew point; setting a lambda sensor value applying a lambda sensor signal or a lambda calculation value applying an air amount sensor signal and a fuel injection amount; and calculating and outputting a lambda duty correction coefficient by the lambda sensor value or the lambda calculation value. 10. The EGR control method of claim 6 , wherein the external factor condition control performs: calculating and outputting an atmospheric pressure duty correction coefficient depending upon an atmospheric pressure; calculating and outputting a cooling water temperature duty correction coefficient depending upon a cooling water temperature; and calculating and outputting a gear stage duty correction coefficient depending upon a gear stage. 11. The EGR control method of claim 4 , wherein the valve duty selection control performs: calculating the minimum EGR valve duty by applying the EGR valve duty correction variable; determining whether or not the EGR valve duty and the minimum EGR valve duty are applied; and determining and outputting the EGR valve duty or the minimum EGR valve duty. 12. The EGR control method of claim 11 , wherein the minimum EGR valve duty applies a minimum opening EGR valve duty of the operation region condition control, a lambda duty correction coefficient of the mixer condition control, an atmospheric pressure duty correction coefficient of the exter