This thesis presents a printed dual-polarized antenna with a maximum radiation in the end-fire direction for millimeter-wave (mmW) applications. In the beginning, Antenna-on-Chip (AoC) and Antenna-in-Package (AiP) which integrate RF circuits with antennas in mmW band are compared and discussed, where AiP is adopted because of the antenna efficiency. Regarding the selection of AiP platform substrate, we investigate two kinds of manufacturing process: Low Temperature Co-fired Ceramic (LTCC) and Printed Circuited Board (PCB). This thesis proposes vertically and horizontally polarized quasi Yagi-Uda antennas particularly designed on LTCC and PCB. Quasi Yagi-Uda antenna has several features including broadband, unidirectional pattern, high gain, and high efficiency. For PCB process, we further integrate the antennas of two different polarizations into the same area, leading to a size reduction. Both corner and lateral designs are investigated according to potential positions of antennas in mobile terminal. The lateral design is further extended to array level for phased array operation. The proposed antennas are suitable for mmW mobile communications and MIMO system applications.