In the power generation industry, accurate time-keeping by supervisory control systems is of utmost importance. Operational failures can propagate rapidly across plant systems and trigger a chain ...

Precision time synchronisation lies at the heart of modern networked systems, underpinning the reliable operation of critical infrastructures ranging from power grids and telecommunications to ...

Over the past couple of decades, more and more applications are going digital. Implementation of digital systems is very simple as it is entirely about logic; however, complexity increases ...

Microelectromechanical-systems (MEMS) technology such as bulk acoustic wave (BAW) adds benefits to factory-automation systems because of its ability to synchronize the clock and time between ...

Basic principles behind distributed systems (collections of independent components that appear to users as a single coherent system) and main paradigms used to organize them. This course satisfies the ...

Real-time performance in ML enabled distributed systems requires more than just good engineering. It’s about building intelligent, resilient infrastructure that adapts to user behavior and holds up ...

What is a distributed system? A distributed system is a collection of independent computers that appear to the user as a single coherent system. To accomplish a common objective, the computers in a ...

Basic principles behind distributed systems (collections of independent components that appear to users as a single coherent system) and main paradigms used to organize them. This course satisfies the ...