Özet:

Permanent magnet Direct Current (DC) motors are frequently preferred in educational control applications. Many different methods have been developed for the closed-loop control of DC motors. The main purpose of these developed methods is to provide high performance in control. In this study, the angular position control of a DC motor was designed in a simulation environment by using the linear quadratic regulator method with integrator (LQR+I) and fuzzy logic control (FLC) and then successfully tested in real-time. LQR, which is a model-based control method, and FLC, a non-model-based control method, were applied to an experimental system and the results were compared. Control algorithm was generated by rapid control prototyping technic using Waijung library and uploaded to the STM32F4 Discovery kit. In order to observe the controller performances more clearly, different real-time reference signals were applied to the system, and as a result of these signals, both controllers achieved successful results

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