Method for providing torque reliability and control apparatus

What is claimed is: 1. A control apparatus comprising: a signal input unit configured to receive first signals, which are input from two or more torque output elements, the first signals including at least one of information for an input shaft angle and an output shaft angle and first torque information calculated based on the input shaft angle and output shaft angle, and to receive a second signal which includes steering angle information and motor position information for a motor which are input from a steering angle output element and a motor position output element; a torque calculation unit configured to calculate a second torque based on the llinputll second signal; an error determination module configured to determine whether an error situation of the two or more torque output elements has occurred or not based on the first signals input from the two or more torque output elements; and a steering torque determination unit configured to determine a driver's steering torque information based on the first signals or the second torque depending on whether the error situation has occurred or not in the two or more torque output elements. 2. The control apparatus of claim 1 , wherein the steering angle information includes information corresponding to the input shaft angle and the motor position information includes information corresponding to the output shaft angle. 3. The control apparatus of claim 2 , wherein the torque calculation unit calculates the second torque based on a difference between the steering angle information corresponding to the input shaft angle and the motor position information for the motor corresponding to the output shaft angle. 4. The control apparatus of claim 1 , wherein the error determination module includes a first error determination unit configured to confirm whether a first signal difference value between the input shaft angles, between the output shaft angles, or between first torques which are confirmed through the first signals input from the two or more torque output elements is not less than a first reference value, and, when it is determined that the first signal difference value is not less than the first reference value, to determine that an error situation in which the first signal information input from one of the two or more torque output elements includes an error has occurred. 5. The control apparatus of claim 4 , wherein, when the situation in which it is confirmed that the first signal difference value is not less than the first reference value continues for a predetermined length of time or sensed a pre-set number of times, the error determination module finally determines that the error situation of the first signals has occurred. 6. The control apparatus of claim 4 , wherein the error determination module includes a second error determination unit, and wherein, when it is confirmed by the first error determination unit that the difference value between the first signals is less than the first reference value, the second error determination unit confirms whether a difference between the mean torque value based on the first signals and the second torque value calculated from the torque calculation unit is not less than a second reference value, and, when the mean torque value based on the first signals and the second torque value is not less than the second reference value, the second error determination unit determines that an error situation in which all the first signals have an error has occurred. 7. The control apparatus of claim 1 , wherein the steering torque determination unit determines a mean torque value or a mean first torque value calculated based on the input shaft angles and the output shaft angles as the driver's steering torque, or determine the second torque as the driver's steering torque, depending on whether an error situation has occurred or not. 8. A steering apparatus comprising: one or more torque output elements configured to sense and output an input shaft angle and an output shaft angle or calculate and output a torque based on the sensed input shaft angle and the sensed output shaft angle; a steering angle output element configured to sense and output a steering angle; a motor position output element configured to sense and output motor position information for a motor; and a control apparatus configured to determine a driver's steering torque based on values output from the one or more torque output elements or determine the driver's steering torque based on the value output from the steering angle output element and the motor position output element, depending on whether values output from the one or more torque output elements include an error, so as to perform a steering control according to the determined steering torque. 9. The steering apparatus of claim 8 , wherein the one or more torque output elements and the steering angle output element or the one or more torque output elements and the motor position output element are implemented by a single torque angle sensor, or the one or more torque output elements is implemented by a torque sensor, the steering angle output element is implemented by the steering angle sensor, and the motor position output element is implemented by a motor position sensor. 10. A method of providing torque reliability by a control apparatus, the method comprising: a signal input step in which first signals are received which are input from two or more torque output elements, and include at least one of information for an input shaft angle and an output shaft angle and first torque information calculated based on the input shaft angle and output shaft angle, and a second signal is received which includes steering angle information and motor position information for a motor which are input from a steering angle output element and a motor position output element; a torque calculation step in which a second torque is calculated based on the second signal; an error determination step in which it is determined whether an error situation of the two or more torque output elements has occurred or not, based on the input first signals; and a steering torque determination step in which, when it is determined that an error situation has occurred, a driver's steering torque information is determined based on the first signals or the second signal, depending on whether an error situation has occurred or not in the two or more output elements. 11. The steering apparatus of claim 8 , wherein first signals include at least one of information for the input shaft angle and the output shaft angle and the torque, and the control apparatus includes a first error determination unit configured to confirm whether a first signal difference value between the input shaft angles, between the output shaft angles, or between first torques which are confirmed through the first signals is not less than a first reference value, and, when it is determined that the first signal difference value is not less than the first reference value, to determine that an error situation in which first signal information input from one of the torque output elements includes an error has occurred. 12. The steering apparatus of claim 11 , wherein, when the situation in which it is confirmed that the first signal difference value is not less than the first reference value continues for a predetermined length of time or sensed a pre-set number of times, the first error determination module finally determines that the error situation of the first signals has occurred. 13. The steering apparatus of claim 12 , wherein the control apparatus includes a second error determination unit, and wherein,