From sound, the right brightness
Sound Adaptive Lighting
Adaptive lighting uses sound analysis to classify events and adjust the light in real time, improving safety and energy efficiency. Through acoustic monitoring it is possible to recognize the type and number of vehicles, traffic level, and enviromental noise, adapting light intensity to the actual road conditions.
Traffic
Every TRAILS system installed on the roads can quantify vehicular traffic and apply adaptive lighting according to the EN 13201 standard. Dynamic light regulation optimizes energy consumption and enhances road safety by always ensuring the brightness is applied in direct relationship with traffic conditions.
Vehicle type
TRAILS recognizes and classifies different vehicle types motorcycles, light vehicles, and heavy vehicles offering valuable data for urban and extra urban traffic planning. This analysis allows a better understanding of mobility flows in the municipality making use of not privacy invasive data while exploiting public lighting propagation.
Weather recognition
Each TRAILS system detects the duration and intensity of rain and strong winds to monitor atmospheric conditions in real time. This data allows you to identify critical situations and adopt preventive strategies to reduce risks related to extreme weather events and improve urban safety.
Environmental acoustic monitoring
TRAILS measures equivalent and peak sound levels in decibels in the surrounding area, providing useful data for evaluating urban noise pollution. The collected information allows the creation of sound maps and heatmaps, fundamental tools for analyzing variations in sound intensity and improving the quality of life in cities.
Urban safety
Each TRAILS system is GDPR-compliant by design: the sound is not recorded but it is classified directly within the lamp control devices by AI neural networks. This approach allows the collection of useful information for public safety while fully respecting citizens’ privacy.
A new solution to cut public lighting energy consumption!
A new solution to cut public lighting energy consumption! Thanks to the TRAILS systems, every lighting point becomes intelligent: dynamic adjustment of light intensity and real-time energy management allows to reduce energy use by up to 60%, while ensuring safety and comfort for citizens and communities.
One solution for multiple benefits
Energy saving
With the adoption of TRAILS systems, public lighting can achieve energy savings between 40% and 60%, significantly reducing consumption and also light points management costs. Each installed device also helps to reduce the environmental impact: the benefit generated is equivalent to the CO₂ absorption of 2.3 trees.
A concrete and measurable approach for more sustainable, efficient, and eco-friendly Municipalities.
How we do it
Our technology combines intelligent devices in the field, safe interconnection, and a centralized management platform. From sound analysis to network control, every step is designed to create more efficient, safe, and sustainable urban infrastructures.
Energy saving
With the adoption of TRAILS systems, public lighting can achieve energy savings between 40% and 60%, significantly reducing consumption and also light points management costs. Each installed device also helps to reduce the environmental impact: the benefit generated is equivalent to the CO₂ absorption of 2.3 trees.
A concrete and measurable approach for more sustainable, efficient, and eco-friendly Municipalities.
How we do it
Our technology combines intelligent devices in the field, safe interconnection, and a centralized management platform. From sound analysis to network control, every step is designed to create more efficient, safe, and sustainable urban infrastructures.
Trails Island Sound AI
The heart of the system: a device that, thanks to Artificial Intelligence and sound analysis, monitors every streetlamp status and dynamically adjusts intensity and consumption, pave the way for more sustainable smart city scenarios.
Trails Gateway
The connection point that links devices into a secure and flexible radio network with LoRa Mesh technology. It ensures continuous, reliable and scalable communication, to manage lighting infrastructure of different sizes.
