Distributed optical fiber vibration measurement device and distributed optical fiber vibration measurement method

The invention claimed is: 1. A distributed optical fiber vibration measurement device for causing a first test light pulse to enter a plurality of optical fibers under test that are integrated to generate first backscattered light at points of the plurality of optical fibers under test and heterodyne-detecting the first backscattered light to measure vibration applied to positions of an optical fiber under test of the plurality of optical fibers under test, the distributed optical fiber vibration measurement device comprising: a phase constant difference computation unit configured to cause the first backscattered light generated at the points of the plurality of optical fibers under test to interfere with another light having an optical frequency different from an optical frequency of the first test light pulse to obtain two AC components and determine a phase constant difference from the two AC components; a phase distribution data creation unit configured to compare amplitudes between the two AC components obtained by causing the first backscattered light generated at the points of the plurality of optical fibers under test to interfere with the other light and select, for each of the points, phase data regarding an AC component of the two AC components having a larger amplitude to create phase distribution data with the phase data arranged over time; and a vibration measurement unit configured to identify, from the phase constant difference and the phase distribution data, an optical path length difference between any two points of the optical fiber under test to measure vibration of the optical fiber under test. 2. The distributed optical fiber vibration measurement device according to claim 1 , wherein the other light is second backscattered light generated by causing a second test light pulse having an optical frequency different from the optical frequency of the first test light pulse to enter the plurality of optical fibers under test at a predetermined interval from the first test light pulse. 3. A distributed optical fiber vibration measurement device for causing a first test light pulse and a second test light pulse having an optical frequency different from an optical frequency of the first test light pulse to enter an optical fiber under test to generate first backscattered light and second backscattered light at points of the optical fiber under test and heterodyne-detecting the first backscattered light and the second backscattered light to measure vibration applied to positions of the optical fiber under test, the distributed optical fiber vibration measurement device comprising: a phase constant difference computation unit configured to cause the first backscattered light and the second backscattered light to interfere respectively with another light having an optical frequency different from optical frequencies of the first test light pulse and the second test light pulse to obtain two AC components and determine a phase constant difference from the two AC components; a phase distribution data creation unit configured to compare amplitudes between the two AC components obtained by causing the first backscattered light and the second backscattered light to interfere with the other light respectively and select, for each of the points, phase data regarding an AC component of the two AC components having a larger amplitude to create phase distribution data with the phase data arranged over time; and a vibration measurement unit configured to identify, from the phase constant difference and the phase distribution data, an optical path length difference between any two points of the optical fiber under test to measure vibration of the optical fiber under test. 4. The distributed optical fiber vibration measurement device according to claim 3 , wherein the other light includes third backscattered light and fourth backscattered light generated by causing a third test light pulse and a fourth test light pulse having optical frequencies different from the optical frequencies of the first test light pulse and the second test light pulse to enter the optical fiber under test at predetermined intervals from the first test light pulse and the second test light pulse. 5. A distributed optical fiber vibration measurement method of causing a first test light pulse to enter a plurality of optical fibers under test that are integrated to generate first backscattered light at points of the plurality of optical fibers under test and heterodyne-detecting the first backscattered light to measure vibration applied to positions of an optical fiber under test of the plurality of optical fibers under test, the distributed optical fiber vibration measurement method comprising: causing the first backscattered light generated at the points of the plurality of optical fibers under test to interfere with another light having an optical frequency different from an optical frequency of the first test light pulse to obtain two AC components and determining a phase constant difference from the two AC components; comparing amplitudes between the two AC components obtained by causing the first backscattered light generated at the points of the plurality of optical fibers under test to interfere with the other light and selecting, for each of the points, phase data regarding an AC component of the two AC components having a larger amplitude to create phase distribution data with the phase data arranged over time; and identifying, from the phase constant difference and the phase distribution data, an optical path length difference between any two points of the optical fiber under test to measure vibration of the optical fiber under test. 6. A distributed optical fiber vibration measurement method of causing a first test light pulse and a second test light pulse having an optical frequency different from an optical frequency of the first test light pulse to enter an optical fiber under test to generate first backscattered light and second backscattered light at points of the optical fiber under test and heterodyne-detecting the first backscattered light and the second backscattered light to measure vibration applied to positions of the optical fiber under test, the distributed optical fiber vibration measurement method comprising: causing the first backscattered light and the second backscattered light to interfere respectively with another light having an optical frequency different from optical frequencies of the first test light pulse and the second test light pulse to obtain two AC components and determining a phase constant difference from the two AC components; comparing amplitudes between the two AC components obtained by causing the first backscattered light and the second backscattered light to interfere with the other light respectively and selecting, for each of the points, phase data regarding an AC component of the two AC components having a larger amplitude to create phase distribution data with the phase data arranged over time; and identifying, from the phase constant difference and the phase distribution data, an optical path length difference between any two points of the optical fiber under test to measure vibration of the optical fiber under test.