Wind turbine control systems have evolved significantly over the past decades, moving from simple classical controllers to sophisticated artificial intelligence-based strategies. Early utility-scale ...

You’ll learn about instrumentation and valves. The article identifies the importance of positioners in fast loops. How first-principle dynamic simulations provide insights into compressor surge, ...

According to Google DeepMind, Deep Loop Shaping is an AI-driven technology developed in collaboration with LIGO, CalTech, and the Gran Sasso Science Institute that significantly reduces noise and ...

Abstract: This brief focuses on developing a hybrid fractional-order PID (FOPID) controller enhanced with fuzzy logic to regulate the output voltage of a DC-DC Buck converter. The FOPID controller ...

Abstract: The control of pneumatic soft robotics is challenging due to nonlinearites arising from many factors including pneumatic system components and material properties of the soft actuator.

This article introduces overall controller effectiveness (OCE) as a new, intuitive metric for evaluating PID loop performance in process industries. It tells how OCE helps process plant teams ...

In this hands-on course, you'll learn the basic terminology and building blocks of process control, as well as advanced process control techniques, using our control solutions. Learn how to evaluate ...

One of the most common automatic control methods used in industry is the Proportional-plus-Integral-and-Derivative (PID) controller. Industrial controllers utilizing this technique are used for ...