The goal of controlling a system is to reach or retain stability. In control theory, stability is described with the Lyapunov stability criteria and mathematical models that set into relation the ...

This article brings control theory to life. Too often control theory is taught using block diagrams with no reference to real ...

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 ...

Develop skills in control theory and applications suitable for self-parking systems, automatic cruise control technologies, integrated powertrain control, autonomous vehicles—innovation is driving the ...

We have considerable expertise in MPC as a powerful tool for providing optimal control in dynamic environments, ensuring real-time performance and adaptability. Our work includes developing predictive ...

Optimal control theory provides a rigorous mathematical framework for determining control policies that optimise a given performance criterion while accounting for system dynamics and constraints. Its ...

At California Institute of Technology, he helped build interdisciplinary research environments Morari helped turn MPC from ...

Negative Imaginary (NI) systems theory is an emerging branch of control theory that focuses on the frequency response characteristics of dynamical systems. At its core, the theory exploits conditions ...

There’s been a lot of discussion recently about autonomous databases, which offer the promise of keeping database systems stable and performant while alleviating much of the tuning and configuration ...

Systems theory was not originally a business theory. Indeed, systems theory was proposed in the 1940s by biologist Ludwig von Bertalanffy, say Francis Heylighen and Cliff Joslyn in their article, ...