EPFL campus PMU smart grid project

EPFL researchers test PMU for smart grid stabilityA Swiss Federal Institute of Technology has installed phasor measurement units (PMU) in four of its campus buildings with the aim of studying how the power distribution grid can respond in real-time to changes in the supply of renewable energy.

École Polytechnique Fédérale de Lausanne (EPFL), which offers masters courses in smart grid science and technology, believes the monitoring system for local voltages, phases, amplitudes and frequencies is the first of its kind in terms of its size, complexity and precision.

Developed by associate professor Mario Paolone and full professor Jean-Yves Le Boudec, the system using PMUs can make high-speed measurements and map what is going on in the electrical grid.

Mr Paolone said: "Thanks to an advanced data processing and delivery, we can estimate the entire state of the grid with a latency of maximum 60 milliseconds."

Keeping grid stable

The researchers says the aim of the project is to allow utilities to integrate renewable energies, which are by nature uncontrollable and intermittent nature of renewable energies, without destablizing the grid.

Paolone said: "In a smart grid, we can buffer these fluctuations through the use of batteries and supercapacitors and by using buildings as virtual storage batteries.

"But for this we need to know exactly what's going on in the grid. Which is why our model is so useful."

Smart grid application

The project is part of a larger objective by EPFL to develop an 'operating system-type' application for smart grids based on innovative control, communication and storage systems.

Paolone said: "Much like the operating system in a computer allows applications to run, our system will enable applications such as intelligent building control or EV car charging to use the smart grid in a very easy way."

(Pic credit: Alain Herzog/EPFL)


  1. Research into Instrumentation, Communication and Control technologies – the grid’s nervous system is very important. PMUs based WACs have opened a new realm of possibilities in this area.
    However, we need an equally agile muscular system (the ability of generators, loads and storage to respond quickly to rapid fluctuations in near transient mode) and skeletal system (a strong and resilient transmission system to handle rapid switching/protection challenges).