Hill start assist control method and system for vehicles

What is claimed is: 1. A hill start assist control (HAC) method for vehicles, comprising: acquiring, by a controller, vehicle state information in real time; determining, by the controller, whether a driver braking input is received based on the vehicle state information, wherein the controller is configured to determine whether the driver breaking input is received from a signal of a brake pedal switch as a brake pedal signal; calculating, by the controller, a braking deceleration of the vehicle generated by braking force from information regarding braking from the vehicle state information, in response to determining that the driver braking input is received; determining, by the controller, a tilt of the vehicle in the pitch direction that corresponds to the calculated braking deceleration; calculating, by the controller, a gradient of a road from a longitudinal acceleration signal of the vehicle from the vehicle state information; correcting, by the controller, the road gradient, calculated from the longitudinal acceleration signal, using the tilt of the vehicle in the pitch direction, wherein the longitudinal acceleration signal is generated by an acceleration sensor; determining, by the controller, whether HAC entrance conditions are satisfied using the corrected road gradient and the vehicle state information acquired in real time; and generating, by the controller, braking force to prevent the vehicle from moving backwards on a hill, in response to determining that the HAC entrance conditions are satisfied, wherein the controller is configured to adjust pressure of the wheel cylinders for generating the braking force to reach a target value through an electronic stability control (ESC) hydraulic modulator. 2. The hill start assist control method for vehicles of claim 1 , wherein the calculation of the braking deceleration of the vehicle includes: estimating, by the controller, braking forces of wheel brakes from braking pressures generated from wheel cylinders of the wheel brakes as the information regarding braking; and calculating, by the controller, braking decelerations during braking of the vehicle from the estimated braking forces of the wheel brakes. 3. The hill start assist control method for vehicles of claim 2 , wherein the braking decelerations are calculated as mean values of vehicle decelerations for a time period from when the driver braking input is received or when a pressure of a master cylinder from the information regarding braking is generated to when wheel speeds detected by wheel speed sensors become 0. 4. The hill start assist control method for vehicles of claim 2 , wherein the overall braking deceleration of the vehicle at the center of gravity of the vehicle calculated based on the estimated braking forces of the respective wheel brakes, the braking decelerations calculated from the braking forces of the wheel brakes and vehicle load distribution information is calculated as the braking deceleration of the vehicle to determine the tilt of the vehicle in the pitch direction. 5. The hill start assist control method for vehicles of claim 2 , wherein the braking pressures are detected by pressure sensors installed at the wheel cylinders. 6. The hill start assist control method for vehicles of claim 2 , wherein the braking pressures are estimated from a master cylinder pressure detected by a pressure sensor of a master cylinder. 7. The hill start assist control method for vehicles of claim 2 , wherein the braking forces of the wheel brakes are calculated using wheel brake information including coefficients of friction of pads and radii of rotation of discs from the braking pressures generated from the wheel cylinders. 8. The hill start assist control method for vehicles of claim 1 , wherein the tilt of the vehicle in the pitch direction is calculated from map data, in which pitch tilts according to mean braking decelerations are mapped. 9. The hill start assist control method for vehicles of claim 1 , wherein, in the generation of braking force to prevent the vehicle from moving backwards, a braking pressure is calculated using the corrected road gradient, and wheel cylinder pressures of wheel brakes to generate the braking force are adjusted using the calculated braking pressure as a target value. 10. The hill start assist control method for vehicles of claim 1 , wherein the HAC entrance conditions include a state in which the corrected road gradient is greater than a set value, a stopped state of the vehicle, and a state in which the driver braking input is released. 11. The hill start assist control method for vehicles of claim 1 , wherein the corrected road gradient is calculated as a difference between the road gradient calculated from the longitudinal acceleration signal and the tilt of the vehicle in the pitch direction. 12. A hill start assist control (HAC) system for vehicles, comprising: a memory configured to store program instructions; and a processor configured to execute the program instructions, the program instructions when executed configured to: acquire vehicle state information in real time; determine whether a driver braking input is received based on the vehicle state information, wherein the processor is configured to determine whether the driver braking input is received from a signal of a brake pedal switch as a brake pedal signal; calculate a braking deceleration of the vehicle generated by braking force from information regarding braking from the vehicle state information, in response to determining that the driver braking input is received; determine a tilt of the vehicle in the pitch direction that corresponds to the calculated braking deceleration; calculate a gradient of a road from a longitudinal acceleration signal of the vehicle from the vehicle state information; correct the road gradient, calculated from the longitudinal acceleration signal, using the tilt of the vehicle in the pitch direction, wherein the longitudinal acceleration signal is generated by an acceleration sensor; determine whether HAC entrance conditions are satisfied using the corrected road gradient and the vehicle state information acquired in real time; and generate braking force to prevent the vehicle from moving backwards on a hill, in response to determining that the HAC entrance conditions are satisfied, wherein the processor is configured to adjust pressure of the wheel cylinders for generating the braking force to reach a target value through an electronic stability control (ESC) hydraulic modulator. 13. The hill start assist control system for vehicles of claim 12 , wherein the program instructions for the calculation of the braking deceleration of the vehicle when executed are further configured to: estimate braking forces of wheel brakes from braking pressures generated from wheel cylinders of the wheel brakes as the information regarding braking; and calculate braking decelerations during braking of the vehicle from the estimated braking forces of the wheel brakes. 14. The hill start assist control system for vehicles of claim 13 , wherein the braking decelerations are calculated as mean values of vehicle decelerations for a time period from when the driver braking input is received or when a pressure of a master cylinder from the information regarding braking is generated to when wheel speeds detected by wheel speed sensors become 0. 15. The hill start assist control system for vehicles of claim 13 , wherein the overall braking deceleration of the vehicle at the center of gravity of the vehicle calculated based on the estimated braking forces of the respecti