Advanced PID Control

The authors of the best-selling book <I>PID Controllers: Theory, Design, and Tuning</I> once again combine their extensive knowledge in the PID arena to bring you an in-depth look at the world of PID control. A new book, <I>Advanced PID Control</I> builds on the basics learned in PID Controllers but

<p>Recently, a great deal of effort has been dedicated to capitalising on advances in mathematical control theory in conjunction with tried-and-tested classical control structures particularly with regard to the enhanced robustness and tighter control of modern PID controllers. Much of the research

<p> Advanced process control techniques play a major role in the economical operation of process-related production facilities. In addition to the optimization of PID regulatory controls and the management of control accuracy, this textbook covers model design, intermeshed regulatory structures, the

<p> Advanced process control techniques play a major role in the economical operation of process-related production facilities. In addition to the optimization of PID regulatory controls and the management of control accuracy, this textbook covers model design, intermeshed regulatory structures, the

<p><i>Industrial PID Controller Tuning</i> presents a different view of the servo/regulator compromise that has been studied for a long time in industrial control research. Optimal tuning generally involves comparison of cost functions (e.g., a quadratic function of the error or a time-weighted abso

<p><span>Industrial PID Controller Tuning</span><span> presents a different view of the servo/regulator compromise that has been studied for a long time in industrial control research. Optimal tuning generally involves comparison of cost functions (e.g., a quadratic function of the error or a time-w