Apparatus and method for performing rear-wheel regenerative braking control of ESC integrated regenerative braking system

What is claimed is: 1. An apparatus for controlling a rear-wheel regenerative braking of an electronic stability control (ESC) integrated regenerative braking system of a vehicle, comprising: a pedal cylinder unit connected to a reserve unit storing oil and configured to generate an oil pressure when a brake pedal is pressed; a motor configured to be driven by an electric signal generated in response to displacement of the brake pedal; a master cylinder unit connected to the pedal cylinder unit and configured to generate a braking oil pressure through a master piston that is moved forward or backward by the driving of the motor; a control unit configured to: in a state in which the vehicle is in a regenerative braking coordinated control mode, perform front-wheel pressure control on the motor according to a pressure desired by a driver based on the brake pedal in a case where a rear-wheel regenerative braking force occurs; perform reverse pressure control on the motor as much as a variation in the rear-wheel regenerative braking force in a case where reduction of the rear-wheel regenerative braking force occurs; and perform drive pressure control on the motor in a case where the reduction of the rear-wheel regenerative braking force is completed; and a plurality of oil pressure relief valves provided on a plurality of oil pressure channels extending from the reserve unit to a plurality of wheel cylinders configured to brake a plurality of wheels, wherein the control unit is configured to control opening and closing of the plurality of oil pressure relief valves. 2. The apparatus according to claim 1 , wherein the oil pressure relief valves include: a first oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between the reserve unit and a first chamber of the pedal cylinder unit; a second oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between the first chamber of the pedal cylinder unit and a third chamber of the master cylinder unit; a third oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between a second chamber of the pedal cylinder unit and a fourth chamber of the master cylinder unit; a fourth oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between the reserve unit and the fourth chamber of the master cylinder unit; a fifth oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between the third chamber of the master cylinder unit and the wheel cylinders; a sixth oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between the fourth chamber of the master cylinder unit and the wheel cylinders; and a seventh oil pressure relief valve that adjusts an oil pressure of an oil pressure channel connecting between the fifth oil pressure relief valve and the sixth oil pressure relief valve. 3. The apparatus according to claim 2 , wherein, in the case where the rear-wheel regenerative braking force occurs, the control unit closes the seventh oil pressure relief valve, opens the first oil pressure relief valve and the third oil pressure relief valve, and then rotates the motor forward or backward to increase or decrease pressures of the front wheels. 4. The apparatus according to claim 3 , wherein the control unit detects a regenerative braking amount through a first pressure sensor provided adjacent to the front wheels, and performs front-wheel pressure control on the motor on the basis of a result of the detection. 5. The apparatus according to claim 2 , wherein, in the case where the reduction of the rear-wheel regenerative braking force occurs, the control unit closes the seventh oil pressure relief valve and the fifth oil pressure relief valve to maintain a front-wheel oil pressure, closes the second oil pressure relief valve, performs the reverse pressure control on the motor as much as the variation in the rear-wheel regenerative braking force, and linearly generates a rear-wheel pressure. 6. The apparatus according to claim 5 , wherein the control unit detects a regenerative braking amount through a second pressure sensor provided adjacent to the rear wheels, and performs the reverse pressure control on the motor on the basis of a result of the detection. 7. The apparatus according to claim 2 , wherein, in the case where the reduction of the rear-wheel regenerative braking force is completed, the control unit closes the sixth oil pressure relief valve, opens the second oil pressure relief valve, the fifth oil pressure relief valve, and the seventh oil pressure relief valve, and then operates the motor for a drive operation to simultaneously generate pressures of the plurality of wheels as much as a braking force desired by the driver. 8. The apparatus according to claim 7 , wherein the control unit detects a regenerative braking amount through the first pressure sensor provided adjacent to the front wheels, and operates the motor for the drive operation on the basis of a result of the detection. 9. A method of operating the apparatus of claim 2 , the method comprising: in a case where the rear-wheel regenerative braking force occurs, closing the seventh oil pressure relief valve, and opening the first oil pressure relief valve and the third oil pressure relief valve; and performing the front-wheel pressure control on the motor. 10. The method according to claim 9 , further comprising, after the performing of the front-wheel pressure control on the motor: in a case where the reduction of the rear-wheel regenerative braking force occurs, closing the seventh oil pressure relief valve and the fifth oil pressure relief valve to maintain the front-wheel oil pressure, and closing the second oil pressure relief valve; and performing the reverse pressure control on the motor. 11. The method according to claim 10 , further comprising, after the linearly generating of the required pressures of the rear wheels: in a case where the reduction of the rear-wheel regenerative braking force is completed, closing, by the control unit, the sixth oil pressure relief valve, and opening the second oil pressure relief valve, the fifth oil pressure relief valve, and the seventh oil pressure relief valve; and operating, by the control unit, the motor for a drive operation to simultaneously generate pressures of the four wheels as much as a braking force desired by the driver.