Lane keeping control system

What is claimed is: 1. A lane keeping control system comprising: a road-surface-condition estimation device including: a tire-side device having a vibration detection unit that is attached to a rear surface of a tread of a tire provided on each of wheels in a vehicle and outputs a detection signal corresponding to a magnitude of vibration of the tire, a signal processing unit that performs a signal processing on the detection signal of the vibration detection unit to generate road surface condition data that is data indicative of a road surface condition of a traveling road surface of the tire, and a transmitter that transmits the road surface condition data, and a vehicle-side device having a receiver that receives the road surface condition data transmitted from the transmitter, an information processing unit that recognizes the road surface condition of the traveling road surface of each wheel from the road surface condition data and generates data indicative of the recognition result, and an output unit that outputs the data generated by the signal processing unit; a lane keeping control device that executes a lane keeping control that restrains the vehicle from deviating from the traveling lane based on the road surface condition estimated by the road-surface-condition estimation device; a brake control device that executes a brake control for controlling a braking force generated to any one of the wheels as the lane keeping control; and a steering control device that executes a steering control for adjusting a steering angle of the wheel as the lane keeping control, wherein at least one of a controlled variable of the brake control in the brake control device and a controlled variable of the steering control in the steering control device is controlled based on the road surface condition detected by the road-surface-condition estimation device, the lane keeping control system further comprises a determination device for determining whether a projecting road stud is present on the traveling road surface, or not, the road-surface-condition estimation device detects a road surface friction coefficient as the road surface condition, and when the road stud is present, controllable maximum values of the controlled variables of the brake control and the steering control in the detected road surface friction coefficient are generated. 2. The lane keeping control system according to claim 1 , wherein the road-surface-condition estimation device detects a road surface friction coefficient as the road surface condition, and when the road surface friction coefficient of each of the wheels is a high p road surface larger than a predetermined reference value, at least one of the controlled variable of the brake control in the brake control device and the controlled variable of the steering control in the steering control device is set to be larger than that when the road surface friction coefficient is the reference value. 3. The lane keeping control system according to claim 1 , wherein the road-surface-condition estimation device detects a road surface friction coefficient as the road surface condition, and when the road surface friction coefficient of each of the wheels is a low p road surface smaller than a predetermined reference value, the lane keeping control is stopped, or at least one of the controlled variable of the brake control in the brake control device and the controlled variable of the steering control in the steering control device is set to be smaller than that when the road surface friction coefficient is the reference value. 4. The lane keeping control system according to claim 1 , wherein the road-surface-condition estimation device detects a road surface friction coefficient as the road surface condition, and when there is a difference in the road surface friction coefficient of the respective wheels, the lane keeping control is stopped, or at least one of the controlled variable of the brake control in the brake control device and the controlled variable of the steering control in the steering control device for at least the wheel smaller in the road surface friction coefficient is set to be smaller than that when the road surface friction coefficient is the reference value. 5. The lane keeping control system according to claim 1 , wherein the road-surface-condition estimation device determines whether the road surface condition is a smooth road, an unpaved road, or a snowy road, and when the road surface condition is the unpaved road or the snowy road, the lane keeping control is stopped, or at least one of the controlled variable of the brake control in the brake control device and the controlled variable of the steering control in the steering control device is set to be smaller than that when the road surface friction coefficient is the reference value. 6. A lane keeping control system comprising: a road-surface-condition estimation device including: a tire-side device having a vibration detection unit that is attached to a rear surface of a tread of a tire provided on each of wheels in a vehicle and outputs a detection signal corresponding to a magnitude of vibration of the tire; a signal processing unit that performs signal processing on the detection signal of the vibration detection unit to generate road surface condition data that is data indicative of a road surface condition of a traveling road surface of the tire, a transmitter that transmits the road surface condition data, and a vehicle-side device having a receiver that receives the road surface condition data transmitted from the transmitter, an information processing unit that recognizes the road surface condition of the traveling road surface of each wheel from the road surface condition data and generates data indicative of the recognition result, and an output unit that outputs the data generated by the signal processing unit; a lane keeping control device that executes a lane keeping control that restrains the vehicle from deviating from the traveling lane based on the road surface condition estimated by the road-surface-condition estimation device; a brake control device that executes a brake control for controlling a braking force generated to any one of the wheels as the lane keeping control; and a steering control device that executes a steering control for adjusting a steering angle of the wheel as the lane keeping control, wherein at least one of a controlled variable of the brake control in the brake control device and a controlled variable of the steering control in the steering control device is controlled based on the road surface condition detected by the road-surface-condition estimation device, and the lane keeping control system further comprises a recognition device for recognizing a guide line drawn along the traveling lane, wherein when any one of the wheels is on the guide line, at least one of the controlled variable of the brake control in the brake control device and the controlled variable of the steering control in the steering control device is set to be smaller than that when the road surface friction coefficient is the reference value.