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With numerous new opportunities and challenges emerging from the topic of the cognition and control of complex systems, the methods related to PID control, or control based on a PID framework, will continue to grow and expand. This book covers some of the recent results that include improvements to the PID controller. Some examples of these improvements are as follows: •The novelty method of the variable, fractional-order PID controller •The optimization of PID controller, such as the hybrid LQR-PID controller by using genetic algorithm (GA) with the application for the control of helicopter systems •The optimized tuning approach of PID controller with disturbance rejection •A controller adjustment method based on the internal product of PID terms •The PI-PD controller, incorporated with the model-based feedforward control (FF) and the disturbance compensator (Kz), which is used for the control of magnetic levitation systems •The proper control with PID framework used to improve the cognition or identification for complex systems.
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With numerous new opportunities and challenges emerging from the topic of the cognition and control of complex systems, the methods related to PID control, or control based on a PID framework, will continue to grow and expand. This book covers some of the recent results that include improvements to the PID controller. Some examples of these improvements are as follows: •The novelty method of the variable, fractional-order PID controller •The optimization of PID controller, such as the hybrid LQR-PID controller by using genetic algorithm (GA) with the application for the control of helicopter systems •The optimized tuning approach of PID controller with disturbance rejection •A controller adjustment method based on the internal product of PID terms •The PI-PD controller, incorporated with the model-based feedforward control (FF) and the disturbance compensator (Kz), which is used for the control of magnetic levitation systems •The proper control with PID framework used to improve the cognition or identification for complex systems.
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With numerous new opportunities and challenges emerging from the topic of the cognition and control of complex systems, the methods related to PID control, or control based on a PID framework, will continue to grow and expand. This book covers some of the recent results that include improvements to the PID controller. Some examples of these improvements are as follows: •The novelty method of the variable, fractional-order PID controller •The optimization of PID controller, such as the hybrid LQR-PID controller by using genetic algorithm (GA) with the application for the control of helicopter systems •The optimized tuning approach of PID controller with disturbance rejection •A controller adjustment method based on the internal product of PID terms •The PI-PD controller, incorporated with the model-based feedforward control (FF) and the disturbance compensator (Kz), which is used for the control of magnetic levitation systems •The proper control with PID framework used to improve the cognition or identification for complex systems.
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Automatic control --- PID controllers --- Commande automatique --- Régulateurs PID --- Régulateurs PID
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PID-regelaars --- Electronics --- fuzzy logic --- 681.5 --- Fuzzy logic control --- PID-regelsystemen --- Regeltechniek --- pid regelaar --- (zie ook: vage logica) --- PID (proportioneel, integrerend en differentiërend) --- Fuzzy logic. --- PID - system --- PID --- Nonlinear logic --- Fuzzy mathematics --- Logic, Symbolic and mathematical --- Fuzzy systems --- Monograph
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PID-regelaars --- automatische regeltechniek --- Computer. Automation --- PID controllers --- controllers --- PID --- tuning --- autotuning --- Proportional Integral-Derivative controllers --- Proportional-plus-Integral-plus-Derivative controllers --- Automatic control --- PID controllers. --- PID (proportioneel, integrerend en differentiërend)
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PID controllers --- Régulateurs PID --- PID controllers. --- pid controller --- #TELE:SISTA --- Proportional Integral-Derivative controllers --- Proportional-plus-Integral-plus-Derivative controllers --- Automatic control --- Agrotechnology and Food Sciences. Information and Communication Technology --- Hardware --- Hardware. --- Régulateurs PID
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Process Identification and PID Control enables students and engineers to understand the essential concepts of feedback control, process identification, autotuning, and design of real feedback controllers, especially PID controllers. Sung, Lee, and Lee introduce the fundamentals of process control and dynamics, analysis tools (Bode plot, Nyquist plot), PID controllers and tuning, controller designs, along with the advances control strategies which have been widely used in industry. Included are numerous numerical examples and MATLAB codes to aid the reader in solving real problems. Readers will be able to design their own controllers, implement them, and confirm performance in real-time using real-time virtual processes. Combines the basics with recent research, helping the novice grasp advanced topics Brings several industrially important topics together: . Finishing topics with implementation codes. Process identification and implementation. PID controller tuning and implementation. Enhanced control strategies and implementation Includes all source codes and real-time virtual processes for self-practice and modeling/controller design courses Contains problems at the end of every chapter Written by a team of recognized experts in the area Process Identification and PID Control is ideal for undergraduate and graduate students in process control, advanced process control, and process identification. Practicing control engineers and R&D personnel in refineries and chemical plants will find this book to be a key reference. Professionals in industry in particular will appreciate the techniques for developing process identification and control software, as well as implementing microprocessor controllers. Source code for readers and course supplements for instructors available at www.wiley.com/go/swsung.
Feedback control systems. --- PID controllers. --- Process control. --- System identification.
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