Terrestrial Bioacoustics
We design acoustic monitoring stations that are designed to operate autonomously even in the most remote locations. Designed for those who study nature without compromise, it can detect and record sounds in both the audio and ultrasonic bands, up to 190 kHz.
This makes it perfect for those involved in biodiversity, environmental impact or terrestrial acoustic surveillance.
At the core of our acoustic stations lies a solid and reliable system, designed to adapt to different environments and conditions. The sensors can be configured to capture a wide range of sounds — from the flight of bats to underwater noise — collecting valuable signals even in challenging and remote contexts.
A compact, programmable central unit allows recordings to be scheduled throughout the day and customized to the needs of each project. Long-term autonomy is ensured by solar panels and dedicated batteries, providing continuous operation for weeks without external intervention.
The stations communicate remotely, transmitting data online or making them available locally, so researchers can easily access results wherever they are. Each recording becomes a piece of knowledge, helping to study biodiversity, monitor the impact of human activities, and protect the environment.
At the core of our acoustic stations lies a solid and reliable system, designed to adapt to different environments and conditions. The sensors can be configured to capture a wide range of sounds — from the flight of bats to underwater noise — collecting valuable signals even in challenging and remote contexts.
A compact, programmable central unit allows recordings to be scheduled throughout the day and customized to the needs of each project. Long-term autonomy is ensured by solar panels and dedicated batteries, providing continuous operation for weeks without external intervention.
The stations communicate remotely, transmitting data online or making them available locally, so researchers can easily access results wherever they are. Each recording becomes a piece of knowledge, helping to study biodiversity, monitor the impact of human activities, and protect the environment.
We design and install systems for remote monitoring, data acquisition, control and user interaction.
We are quick and responsive in developing experimental and flexible systems based on open platforms such as Arduino and its derivatives, and we have extensive experience in designing monitoring and data acquisition systems in natural, difficult and extreme environments.
We use long-distance data transmission systems, small photovoltaic and wind generators, as well as batteries to power the equipment.