We are in a new age of clinical research, where experimental design is moving from relying on cohort sizes of 2×2 and 10×10 for putative biomarker panel identification to hundreds or even thousands of ...

Manufacturers need scalable platforms that support real-time visibility, flexible deployment and seamless integration across machines, lines and facilities regardless of operation size. Modern control ...

We are fascinated when we see machines work together, seemingly with minds of their own. The TV show “How It’s Made” became popular for simply showing how products are made in an automated factory ...

Multivariable control systems design addresses the challenges of controlling processes with several interacting inputs and outputs. This field synthesises advanced control theories with practical ...

Hybrid lighting control systems combine the features of both wired and wireless lighting control to create a game-changing approach that maximizes flexibility, efficiency, and scalability. For ...

Control systems integrators provide single-point responsibility for PLCs, SCADA, networks and cybersecurity, dramatically reducing troubleshooting time compared to fragmented multi-vendor approaches ...

Developed by the International Society of Automation (ISA), the ISA-5 series of standards are essential for industries that rely on complex instrumentation and control systems, including chemical ...

Previous chapters have brought us to the point where, given a system design, we can look at it every which way, analyze and specify its performance, and communicate its structure and behavior. This ...

Explore how digital feedback controllers manage motors, pressure, temperature, and more, and learn why ADC and DAC performance are crucial when designing robust embedded systems. How to define the ...

Modern aerospace engineering increasingly relies on the seamless integration of advanced performance modelling with state‐of‐the‐art flight control systems. These systems optimise aerodynamic ...