In this thesis, we introduce a design of high directivity cavity antenna applied to 24GHz forward-looking collision avoidance radar system, 24.025GHz to 24.225GHz is the operating frequency. The major model is structured by patch antennas, the partially reflecting surface (PRS) and metal sidewalls. The multi-reflection of antenna radiation in the cavity is applied to reach higher gain and narrow beam, and miniaturize total height compared with the height of Lens Antennas. Making up for the huge area of cavity antennas, we will analyze the electric field distribution affected by shifting the feeding position and then install the Rx and Tx antennas in the same cavity to reach the area miniaturization. Lastly we compare the characteristics of some different decoupling circuits. By combining the antenna and the one wave length resonator to generate another path, which cancels the antenna coupling, finally we can achieve a high isolation antenna for wide-band.