In this study, a self-made quadcopter system is constructed, which consists of microcontroller, ultrasonic sensor, attitude sensor, image module, related circuits, etc. The cascade PID is used to embed microcontrollers for attitude and altitude control, which has the advantage that complex non-linear systems can be controlled effectively without the need for precise mathematical models. For image processing, to help the quadrotor hover and track the line stably, Hough transform and monocular ranging are used to detect the current yaw angle and altitude of the the quadrotor and as an aid to complete the flight. In order to verify the effectiveness of the above method applied to the quadrotor, an experimental platform environment for a quadrotor is established. The experimental results show that they meet the expected objectives.