Smart cruise control system for vehicles and control method thereof

What is claimed is: 1 . A smart cruise control (SCC) system, which controls acceleration or deceleration of a driver's vehicle to maintain a safe distance from preceding vehicles, comprising: a control unit configured to determine a road environment, in which the driver's vehicle is driving, based on road information supplied from a navigation, choose a target vehicle from among the preceding vehicles by using a parameter which is adaptively set depending on the determined road environment, and calculate a target acceleration of the driver's vehicle, based on the chosen target vehicle; and a braking unit configured to control acceleration or deceleration of the driver's vehicle, based on the target acceleration. 2 . The SCC system of claim 1 , wherein the control unit determines whether the road environment in which the driver's vehicle is driving is a general road or a highway, based on the road information supplied from the navigation. 3 . The SCC system of claim 1 , wherein when the road environment in which the driver's vehicle is driving is a general road, the control unit calculates the target acceleration by using a first parameter which is obtained by lowering a choice criterion of a target vehicle, and when the road environment in which the driver's vehicle is driving is the highway, the control unit calculates the target acceleration by using a second parameter which is obtained by tuning the first parameter to increase the choice criterion of the target vehicle. 4 . The SCC system of claim 1 , wherein the control unit comprises: a mode determiner configured to determine whether the road environment in which the driver's vehicle is driving is a general road or a highway, based on the road information supplied from the navigation, wherein when the road environment in which the driver's vehicle is driving is the general road, the mode determiner determines a first control mode, and when the road environment in which the driver's vehicle is driving is the highway, the mode determiner determines a second control mode; a target vehicle chooser configured to choose a target vehicle from among the preceding vehicles in the first control mode, based on a parameter associated with a choice of the target vehicle, tune the parameter in the second control mode, and choose the target vehicle, based on the tuned parameter; and a target acceleration calculator configured to calculate a first target acceleration with respect to the chosen target vehicle, based on the parameter, and calculate a second target acceleration with respect to the chosen target vehicle, based on the tuned parameter. 5 . The SCC system of claim 4 , wherein the parameter comprises at least one of a forward-looking distance of the driver's vehicle, a path width corresponding to the forward-looking distance, and a threshold time value compared with a time value in which a target vehicle stays in a region of interest (ROI) of the driver's vehicle. 6 . The SCC system of claim 5 , wherein the forward-looking distance comprises a first forward-looking distance and a second forward-looking distance shorter than the first forward-looking distance, and the target vehicle chooser chooses the target vehicle by using the first forward-looking distance in the first control mode, and in the second control mode, the target vehicle chooser chooses the target vehicle by using the second forward-looking distance. 7 . The SCC system of claim 5 , wherein the path width comprises a first path width and a second path width narrower than the first path width, and the target vehicle chooser chooses the target vehicle by using the first path width in the first control mode, and in the second control mode, the target vehicle chooser chooses the target vehicle by using the second path width. 8 . The SCC system of claim 5 , wherein the threshold time value comprises a first threshold time value and a second threshold time value greater than the first threshold time value, and the target vehicle chooser chooses the target vehicle by using the first threshold time value in the first control mode, and in the second control mode, the target vehicle chooser chooses the target vehicle by using the second threshold time value. 9 . A control method of a smart cruise control (SCC) system which controls acceleration or deceleration of a driver's vehicle to maintain a safe distance from preceding vehicles, the control method comprising: determining a road environment in which the driver's vehicle is driving, based on road information supplied from a navigation; adaptively applying a parameter associated with a choice of a target vehicle depending on the road environment to choose a target vehicle; calculating a target acceleration of the driver's vehicle, based on the chosen target vehicle; and controlling acceleration or deceleration of the driver's vehicle, based on the target acceleration. 10 . The control method of claim 9 , wherein the determining of the road environment comprises determining whether the road environment is a general road or a highway, based on the road information. 11 . The control method of claim 10 , wherein the choosing of the target vehicle comprises: when the road environment is the general road, choosing the target vehicle from among the preceding vehicles by using a first parameter which is low in choice criterion for choosing the target vehicle; and when the road environment is the highway, choosing the target vehicle by using a second parameter which is high in choice criterion. 12 . The control method of claim 10 , wherein the parameter comprises a first forward-looking distance of the driver's vehicle and a second forward-looking distance shorter than the first forward-looking distance, and the choosing of the target vehicle comprises: when the road environment is the general road, choosing the target vehicle by using the first forward-looking distance; and when the road environment is the highway, choosing the target vehicle by using the second forward-looking distance. 13 . The control method of claim 10 , wherein the parameter is a path width corresponding to a forward-looking distance of the driver's vehicle, the path width comprises a first path width and a second path width narrower than the first path width, and the choosing of the target vehicle comprises: when the road environment is the general road, choosing the target vehicle by using the first path width; and when the road environment is the highway, choosing the target vehicle by using the second path width. 14 . The control method of claim 10 , wherein the parameter is a threshold time value compared with a time value in which the target vehicle stays in a region of interest (ROI) of the driver's vehicle, the threshold time value comprises a first threshold time value and a second threshold time value greater than the first threshold time value, and the choosing of the target vehicle comprises: when the road environment is the general road, choosing the target vehicle by using the first threshold time value; and when the road environment is the highway, choosing the target vehicle by using the second threshold time value.