Method for controlling regenerative brake system for vehicle

What is claimed is: 1. A method for operating a brake system, the method comprising: providing a vehicle comprising: a hydraulic cylinder, a plurality of wheel brakes comprising a first wheel brake and a second wheel brake, a plurality of hydraulic pipe lines connecting between the hydraulic cylinder and each of the plurality of wheel brakes for supplying brake power thereto, wherein the plurality of hydraulic pipe lines comprises a split in fluid connection with each of the first and second wheel brakes via at least one valve, a pressure sensor configured to detect a hydraulic pressure in the split, and a controller configured to control operation of the hydraulic cylinder, running the brake system under one from Auto Braking System (ABS) associated control, Traction Control System (TCS) associated control and Vehicle Dynamics Control (VDC) associated control, computing a target pressure for each of the plurality of wheel brakes, wherein under ABS associated control, the controller controls operation of the hydraulic cylinder for accomplishing the target pressure such that the controller estimates a hydraulic pressure for each of the plurality of wheel brakes and then controls the operation of the hydraulic cylinder to have the estimated hydraulic pressure follow the target pressure, whereas under TCS associated control or VDC associated control, the controller controls operation of the hydraulic cylinder using the hydraulic pressure detected by the pressure sensor without estimating a hydraulic pressure for each of the plurality of wheel brakes. 2. A brake system for a vehicle, comprising: a hydraulic cylinder; a plurality of wheel brakes comprising a first wheel brake and a second wheel brake; a plurality of hydraulic pipe lines connecting between the hydraulic cylinder and each of the plurality of wheel brakes for supplying brake power thereto, wherein the plurality of hydraulic pipe lines comprises a split in fluid connection with each of the first and second wheel brakes via at least one valve; a pressure sensor configured to detect a hydraulic pressure in the split; a controller configured to compute a target pressure for each of the plurality of wheel brakes and to control operation of the hydraulic cylinder using the target pressure, wherein under Auto Braking System (ABS) associated control, the controller controls operation of the hydraulic cylinder for accomplishing the target pressure such that the controller estimates a hydraulic pressure for each of the plurality of wheel brakes and then controls operation of the hydraulic cylinder to have the estimated hydraulic pressure follow the target pressure, whereas under Traction Control System (TCS) associated control or Vehicle Dynamics Control (VDC) associated control, the controller controls operation of the hydraulic cylinder using the hydraulic pressure detected by the pressure sensor without estimating a hydraulic pressure for each of the plurality of wheel brakes. 3. The brake system of claim 2 , for TCS associated control or VDC associated control, the controller opens an entrance-side valve of the first wheel brake and closes an entrance-side valve of the second wheel brake. 4. The brake system of claim 2 , wherein the control unit is configured to control an entrance-side valve of the first wheel brake and an exit-side valve of the first wheel brake such that the estimated hydraulic pressure of the first wheel brake follows the target pressure. 5. The apparatus of claim 4 , wherein the control unit is configured to estimate the estimated hydraulic pressure by calculating a liquid amount using an open time of the entrance-side valve and the exit-side valve.