Control Systems

AR.Drone Position Servoing and Visual Tracking

A demonstration of my Master’s Thesis: Visual-Based Localization and Tracking of a UGV with a Quadcopter. In this project, a visual tracking framework is designed to track the UGV with an AR.Drone quadcopter from Parrot. The system utilizes a centralized control by a ground station which is running ROS and Ubuntu 12.04 LTS. The first two experiments were taken with the support of a global vision system which was designed using a low cost web camera.

The Limitations of Classical PID Controller and Its Advanced Derivations

Since founded by N. Weiner in 1947, the control theory has been evolved for more than 60 years and is still full of challenges and opportunities. The most important principle of the control theory, in my opinion, is the feedback mechanism. Without feedback and closed-loop, almost no algorithm and control technique can be implied. The idea of feedback is that by comparing the reference input and the actual output, an error signal can be obtained and then can be used by the controller to trace and eliminate the difference between the input and the output.