![WES - Development of a wireless, non-intrusive, MEMS-based pressure and acoustic measurement system for large-scale operating wind turbine blades WES - Development of a wireless, non-intrusive, MEMS-based pressure and acoustic measurement system for large-scale operating wind turbine blades](https://wes.copernicus.org/articles/7/1383/2022/wes-7-1383-2022-f03-web.png)
WES - Development of a wireless, non-intrusive, MEMS-based pressure and acoustic measurement system for large-scale operating wind turbine blades
![WES Fire Safety on Twitter: "WES can replicate the functionality of a hardwired system, without the need for power. The wireless units are easy to add, remove and clone with just a WES Fire Safety on Twitter: "WES can replicate the functionality of a hardwired system, without the need for power. The wireless units are easy to add, remove and clone with just a](https://pbs.twimg.com/media/ES5X-xUXsAEIdkn.jpg)
WES Fire Safety on Twitter: "WES can replicate the functionality of a hardwired system, without the need for power. The wireless units are easy to add, remove and clone with just a
![WES Fire Safety on Twitter: "WES wireless call points are installed on site in accordance with the project's fire plan. When an alarm is activated, the call point indicates the exact location WES Fire Safety on Twitter: "WES wireless call points are installed on site in accordance with the project's fire plan. When an alarm is activated, the call point indicates the exact location](https://pbs.twimg.com/media/ERvCN8QX0AEulFR.jpg)