Dual Design PID Controller for Robotic Manipulator Application

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Abstract

This research introduces a dual design proportional–integral–derivative (PID) controller architecture process that aims to improve system performance by reducing overshoot and conserving electrical energy. A dual design PID controller uses real-time error and one-time step delay to adjust the confidence weights of the controller, leading to improved performance in reducing overshoot and saving electrical energy. To evaluate the effectiveness of a dual design PID controller, experiments were conducted to compare it with the PID controller using least overshoot tuning by Chien–Hrones–Reswick (CHR) technique. The results showed that a dual design PID controller was more effective at reducing overshoot and saving electrical energy. A case study was also conducted as part of this research, and it demonstrated that the system performed better when using a dual design PID controller. Overshoot and electrical energy consumption are common issues in systems that can impact performance, and a dual design PID controller architecture process provides a solution to these issues by reducing overshoot and saving electrical energy. A dual design PID controller offers a new technique for addressing these issues and improving system performance. In summary, this research presents a new technique for addressing overshoot and electrical energy consumption in systems through the use of a dual design PID controller. A dual design PID controller architecture process was found to be an effective solution for reducing overshoot and saving electrical energy in systems, as demonstrated by the experiments and case study conducted as part of this research. A dual design PID controller presents a promising solution for improving system performance by addressing the issues of overshoot and electrical energy consumption.

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APA

Chotikunnan, P., & Chotikunnan, R. (2023). Dual Design PID Controller for Robotic Manipulator Application. Journal of Robotics and Control (JRC), 4(1), 23–34. https://doi.org/10.18196/jrc.v4i1.16990

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