3D technology has been widely spread in recent years. As the way receiving information changing from 2D to 3D, the human-machine interface should also be improved to supply a more intuitive interaction. Camera-based interaction system has been used on larger display for years; however, we do not see a sophisticated corresponding product on smaller display like mobile device. There are several ways to achieve 3D interaction system. Some researchers dedicated in embedded-photosensor-based system for mobile device, but its maximum working range is slightly insufficient. In a traditional camera-based system, sensors are setting on different positions, and the target can be located by epipolar geometry. Nevertheless, it is failed due to limited field of view of sensors in near range. In this thesis, we propose a 3D interaction system for mobile device. The system is basically a camera-based system but with modified architecture. We designed a reflecting layer inserted into the sensor structure to reorient its field of view, enabling the camera-based system to work in near field. Finally, the concept was verified on a virtual 8-inch display. The maximum working range was 10 cm and the spatial resolution was 0.2 cm at least. In addition, we also found that the proposed system can support depth sensing in far field up to 50 cm.