Learn to apply control systems in automotive, energy, aerospace, robotics, and manufacturing sectors. Apply feedback control laws to stabilize systems and achieve performance goals. Control systems ...

With electrification rapidly moving from niche to necessity, the real test now is to develop EV technology that works as ...

Due to high demand for this course, we operate a staged admissions process with multiple selection deadlines throughout the year, to maintain a fair and transparent approach. Explore our campus, meet ...

Dynamic optimisation and model predictive control (MPC) are at the forefront of modern process systems engineering, offering robust methodologies to address the challenges posed by time-varying ...

Proportional-Integral-Derivative (PID) controllers represent a cornerstone in the field of control systems engineering, providing a versatile and robust method for regulating industrial processes. The ...

Plant automation has historically been the responsibility of the control system engineer—you know, the instrumentation guy, the DCS guy, the PLC and HMI guy. Interfaces were straightforward with ...

The idea of building a machine from isolated parts, each with its own setup and software, no longer fits how modern automation works.

A war of words is raging in the process control industry over the “integration” of safety and control systems. It’s a debate that has been ongoing for years, but the recent introduction of new ...

In this chapter, we report our broad conclusions related to each of the themes we introduced at the start of the report. These conclusions reflect detailed consideration of (1) our research into ...