Radar apparatus and method of determining sign of velocity

What is claimed is: 1. A vehicle radar apparatus which radiates laser light toward an object and detects and analyzes the laser light reflected by the object, comprising: a transmitter for radiating laser light toward the object, the laser light having an intensity modulated by a periodic signal having a frequency f0 lower than a lowest frequency at which the Doppler frequency fd produced as a result of movement of the object can be measured; a detector which includes a first detector for mixing received laser light and pre-transmission laser light so as to perform optical heterodyne detection, and a second detector for shifting the phase of one of the received laser light and the pre-transmission laser light by 90° and mixing the phase-shifted one laser light with the other laser light so as to perform optical heterodyne detection; and a frequency analyzer for producing a complex signal while using electric signals output from the first detector and the second detector as an I component signal and a Q component signal, obtaining a Doppler frequency fd through frequency analysis of the complex signal, and determining a sign of velocity of the object from a sign of the Doppler frequency fd; and a phase difference detector with a BPF (band pass filter) passing a band including the frequency f0 for detecting a phase difference between the periodic signal and a component with the frequency of f0 among the electric signal passed through the BPF to thereby measure a distance to the object; wherein the detector and the transmitter comprise an optical integrated circuit, the optical integrated circuit comprising an optical waveguide with line-shaped structures of Si formed on an SiO2 substrate, a first photodiode used for the first detector, a π/2 phase shifter and a second photodiode used for the second detector, a ring modulator used as an intensity modulator in the transmitter, a polarization correction diffraction grating for receiving laser light, and a ring oscillator used as an optical BPF which passes a band including a wavelength of the laser light wavelength, the π/2 phase shifter comprising the optical waveguide and a heater; wherein the wavelength of the laser light is set to a range of 800 to 1700 nm; and wherein the periodic signal is a cosine wave having a frequency f0 of 50 kHz to 500 kHz.