Every train, every tunnel, every bridge already produces the energy you need.
Rail vibration, traffic noise and structural movement generate continuous ambient energy. The WaveHarvester captures it to power sensors and monitoring equipment in locations where batteries are impractical and cabling is expensive.
The challenge of remote monitoring
Infrastructure monitoring often happens in hard-to-reach locations: inside tunnels, on bridge structures, and along rail tracks.
Battery replacement in these environments is not just costly but operationally complex, requiring safety protocols, track closures, and specialist access. A self-powered sensor network removes this burden entirely, ensuring continuous data flow without maintenance downtime.
Zero Maintenance Access
Eliminate the need for track closures or specialized teams for battery swaps.
Key Infrastructure Applications
Metro & Subway Stations
Monitoring station environmental conditions and track safety. Currently exploring pilots with major European metro operators.
Target: Netherlands Metro
Tunnel Lighting & Ventilation
Powering sensors that trigger automated systems based on air quality or traffic flow without external cabling.
Application: Automated Control
Rail Vibration Monitoring
Structural health sensors mounted directly on rail infrastructure, harvesting the energy of passing trains.
Application: Safety Systems
Highway Structural Health
Continuous monitoring of bridge expansion joints and structural integrity using traffic-induced vibration.
Application: Bridge Maintenance
Sustainable Development Alignment
SDG 7
Affordable & Clean Energy
Self-sustaining power source.
SDG 7
Affordable & Clean Energy
Self-sustaining power source.
SDG 7
Affordable & Clean Energy
Self-sustaining power source.
Drive the future of smart infrastructure.
We are looking for infrastructure partners to run joint pilot programmes. Get in touch to explore opportunities for your network.