Apparatus for measuring interior temperature of vehicle using 3D thermal image

What is claimed is: 1. A method for measuring interior temperature of a vehicle using a three-dimensional thermal image, comprising the steps of: providing a pair of stereo infrared sensors spaced apart from each other and disposed in a front of an interior of the vehicle; measuring two-dimensional thermal images of the interior of the vehicle with the pair of stereo infrared sensors; providing a controller and a calculator in communication with the pair of stereo infrared sensors; converting the two-dimensional thermal images measured by the pair of stereo infrared sensors into a three-dimensional thermal image by the calculator; calibrating a temperature value of the three-dimensional thermal image converted by the calculator according to a plurality of temperature variables by the controller; and calibrating a first temperature value measured by the pair of stereo infrared sensors at a specific coordinate of the interior of the vehicle to a second temperature value by the controller if a distance from the pair of stereo infrared sensors to the specific coordinate of the interior of the vehicle is one of equal to and greater than a predetermined distance, and wherein the second temperature value is greater than the first temperature value. 2. The method according to claim 1 , wherein the step of calibrating the temperature value of the three-dimensional thermal image converted by the calculator according to the plurality of temperature variables by the controller includes the steps of: calibrating the pair of stereo infrared sensors to correct distortion; measuring a thermal image formed in the interior of the vehicle through each of the pair of stereo infrared sensors to form a two-dimensional thermal image; comparing the thermal image measured by a first one of the pair of stereo infrared sensors with the thermal image measured by a second one of the pair of stereo infrared sensors; obtaining a coordinate disparity between corresponding points of the thermal image measured by the first one of the pair of stereo infrared sensors and the thermal image measured by the second one of the pair of stereo infrared sensors; and acquiring a three-dimensional thermal image by imaging and mapping the coordinate disparity. 3. The method according to claim 2 , further comprising the steps of removing an afterimage, a vibration, and a noise from each of the thermal images measured by the pair of stereo infrared sensors, and rectifying each of the thermal images measured by the pair of stereo infrared sensors with a calibration characteristic value of each of the stereo infrared sensors. 4. A method for measuring interior temperature of a vehicle using a three-dimensional thermal image, comprising the steps of: providing a pair of stereo infrared sensors spaced apart from each other and disposed in a front of an interior of the vehicle; measuring two-dimensional thermal images of the interior of the vehicle with the pair of stereo infrared sensors; providing a controller and a calculator in communication with the pair of stereo infrared sensors; converting the two-dimensional thermal images measured by the pair of stereo infrared sensors into a three-dimensional thermal image by the calculator; calibrating a temperature value of the three-dimensional thermal image converted by the calculator according to a plurality of temperature variables by the controller; comparing a temperature value measured by a first one of the pair of stereo infrared sensors at a specific coordinate of the interior of the vehicle with a temperature value measured by a second one of the pair of stereo infrared sensors at the specific coordinate of the interior of the vehicle by the controller; and determining a failure in one of the pair of stereo infrared sensors if a difference between the temperature value measured by the first one of the pair of stereo infrared sensors and the temperature value measured by the second one of the pair of stereo infrared sensors is one of equal to and greater than a tolerance. 5. The method according to claim 4 , further comprising the steps of: considering the specific coordinate of the interior of the vehicle as an error point by the controller if the temperature difference between the temperature value measured by the first one of the pair of stereo infrared sensors and the temperature value measured by the second one of the pair of stereo infrared sensors deviates from the tolerance; counting a frequency of an occurrence of the error point; offsetting the temperature value measured by the one of the pair of infrared sensors determined the failure by the controller if the frequency of the occurrence of the error point is one of equal to and greater than 50%; and calibrating a pixel of the thermal images measured by the pair of stereo infrared sensors by the controller if the frequency of the occurrence of the error point is less than 50%, wherein the pixel corresponds to the error point. 6. The method according to claim 4 , further comprising the step of calibrating the temperature value of the thermal image measured through the one of the pair of infrared sensors determined the failure by the controller by using a preset temperature value, the preset temperature value corresponds to a member positioned in the interior of the vehicle. 7. A method for measuring interior temperature of a vehicle using a three-dimensional thermal image, comprising the steps of: providing a pair of stereo infrared sensors spaced apart from each other and disposed in a front of an interior of the vehicle; measuring two-dimensional thermal images of the interior of the vehicle with the pair of stereo infrared sensors; providing a controller and a calculator in communication with the pair of stereo infrared sensors; converting the two-dimensional thermal images measured by the pair of stereo infrared sensors into a three-dimensional thermal image by the calculator; and calibrating a temperature value of the three-dimensional thermal image converted by the calculator according to a plurality of temperature variables by the controller, wherein the step of calibrating a temperature value of the three-dimensional thermal image converted by the calculator according to a plurality of temperature variables by the controller includes the steps of using a preset emissivity of a member positioned in the interior of the vehicle and applying a radiant energy weight to the member by the controller, and wherein a magnitude of the radiant energy weight corresponds to a magnitude of a weight of one of a human body, a ceiling of the vehicle, a door trim of the vehicle, a clothing of the member, a seat of the vehicle, and a glass of the vehicle.