Temperature distribution measurement apparatus and temperature distribution measurement method

What is claimed is: 1. A temperature distribution measurement apparatus comprising: a laser light source optically connected to an optical fiber; a photodetector configured to detect light backscattered in the optical fiber; and a temperature distribution measurement unit configured to obtain a true measured temperature distribution by performing correction calculation using a transfer function on a temporary measured temperature distribution obtained based on an output from the photodetector, wherein the temperature distribution measurement unit stores therein data on a transfer function set for each entire length of the optical fiber and for each longitudinal position in the optical fiber, the data on a transfer function set for each longitudinal position in the optical fiber being data on an area focusing around a point of a longitudinal position in the optical fiber and having a predetermined length, and when the entire length of the optical fiber connected to the laser light source is changed, the temperature distribution measurement unit selects, from the data on the transfer function set for each entire length of the optical fiber and for each longitudinal position in the optical fiber, a transfer function for an entire length of the optical fiber close to the changed entire length of the optical fiber, and changes the transfer function to be used in the correction calculation by using the selected transfer function. 2. The temperature distribution measurement apparatus according to claim 1 , wherein the transfer function to be used in the correction calculation is calculated by linear approximation. 3. The temperature distribution measurement apparatus according to claim 1 , wherein the temperature distribution measurement unit calculates the true measured temperature distribution by applying an inverse function of the transfer function to the temporary measured temperature distribution. 4. The temperature distribution measurement apparatus according to claim 1 , wherein the transfer function set for each longitudinal position in the optical fiber is a function indicating a relationship between distances from a longitudinal position in the optical fiber and relative intensities of temperature. 5. A temperature distribution measurement method employed by a temperature distribution measurement apparatus configured to output laser light from a laser light source to an optical fiber, obtain a temporary measured temperature distribution in a longitudinal direction of the optical fiber by detecting light backscattered in the optical fiber, and obtain a true measured temperature distribution by performing correction calculation on the temporary measured temperature distribution by use of a transfer function, wherein the temperature distribution measurement apparatus stores therein data on a transfer function set for each entire length of the optical fiber and for each longitudinal position in the optical fiber, the data on a transfer function set for each longitudinal position in the optical fiber being data on an area focusing around a point of a longitudinal position in the optical fiber and having a predetermined length, and when an entire length of the optical fiber optically connected to the laser light source is changed, the temperature distribution measurement apparatus selects, from the data on the transfer function set for each entire length of the optical fiber and for each longitudinal position in the optical fiber, a transfer function for an entire length of the optical fiber close to the changed entire length of the optical fiber, and changes the transfer function to be used in the correction calculation by using the selected transfer function. 6. The temperature distribution measurement method according to claim 5 , wherein the transfer function to be used in the correction calculation is calculated by linear approximation. 7. The temperature distribution measurement method according to claim 5 , wherein the optical fiber optically connected to the laser light source has a winding portion at a location where a temperature is maintained constant, the winding portion being formed by winding a certain length or more of the optical fiber. 8. The temperature distribution measurement method according to claim 5 , wherein the optical fiber optically connected to the laser light source is laid in a rack in which a computer is housed. 9. The temperature distribution measurement method according to claim 5 , wherein the temperature distribution measurement apparatus selects, from the data on the transfer function set for each entire length of the optical fiber and for each longitudinal position in the optical fiber, a transfer function for an entire length of the optical fiber and a longitudinal position in the optical fiber close to an inputted entire length of the optical fiber and an inputted longitudinal position in the optical fiber, and changes the transfer function to be used in the correction calculation by using the selected transfer function. 10. The temperature distribution measurement method according to claim 5 , wherein the temperature distribution measurement apparatus obtains the entire length of the optical fiber based on time it takes for the laser light emitted from the laser light source to reach an end portion of the optical fiber or time it takes for the backscattered light to no longer be detected, selects, from the data on the transfer function set for each entire length of the optical fiber and for each longitudinal position in the optical fiber, a transfer function for an entire length of the optical fiber close to the obtained entire length of the optical fiber, and changes the transfer function to be used in the correction calculation by using the selected transfer function. 11. The temperature distribution measurement method according to claim 5 , wherein the temperature distribution measurement apparatus calculates the true measured temperature distribution by applying an inverse function of the transfer function to the temporary measured temperature distribution. 12. The temperature distribution measurement method according to claim 5 , wherein the transfer function set for each longitudinal position in the optical fiber is a function indicating a relationship between distances from a longitudinal position in the optical fiber and relative intensities of temperature.