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An AI-powered tool turning geospatial data into actionable biodiversity insights.

The future of land care is data-driven,
regenerative, and collaborative. We support land managers, cities, and organisations benefit from a new era of precision, powered by satellite intelligence and co-creation on the ground.

An AI-powered tool turning geospatial data into actionable biodiversity insights.

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Sustainable
Land Management

Sustainable
Land Management

Sustainable
Land Management

Through AI-based remote sensing analysis integrating Satellite, LiDAR, and field data, we identify and classify nature types, quantify vegetation and surface cover, and establish baseline biodiversity maps to support evidence-based environmental assessment and sustainable land management.

Through AI-based remote sensing analysis integrating Satellite, LiDAR, and field data, we identify and classify nature types, quantify vegetation and surface cover, and establish baseline biodiversity maps to support evidence-based environmental assessment and sustainable land management.

Through AI-based remote sensing analysis integrating Satellite, LiDAR, and field data, we identify and classify nature types, quantify vegetation and surface cover, and establish baseline biodiversity maps to support evidence-based environmental assessment and sustainable land management.

Biodiversity
Baseline Mapping
and Monitoring

Biodiversity
Baseline Mapping
and Monitoring

Biodiversity
Baseline Mapping
and Monitoring

Our biodiversity monitoring service provides AI-based mapping and continuous observation of habitat conditions. By integrating satellite, LiDAR, and field data, we establish a measurable biodiversity baseline and track ecological changes over time - supporting evidence-based decision-making.

Our biodiversity monitoring service provides AI-based mapping and continuous observation of habitat conditions. By integrating satellite, LiDAR, and field data, we establish a measurable biodiversity baseline and track ecological changes over time - supporting evidence-based decision-making.

Our biodiversity monitoring service provides AI-based mapping and continuous observation of habitat conditions. By integrating satellite, LiDAR, and field data, we establish a measurable biodiversity baseline and track ecological changes over time - supporting evidence-based decision-making.

Geospatial Assessment of Green and Pollinator corridors

Geospatial Assessment of Green and Pollinator corridors

Geospatial Assessment of Green and Pollinator corridors

Through AI-based habitat classification and connectivity modelling, we assess the condition and continuity of green and pollinator corridors, identifying barriers to movement and areas of ecological opportunity. These insights support urban planners, developers, and municipalities in designing mitigation and restoration strategies that strengthen biodiversity networks.

Through AI-based habitat classification and connectivity modelling, we assess the condition and continuity of green and pollinator corridors, identifying barriers to movement and areas of ecological opportunity. These insights support urban planners, developers, and municipalities in designing mitigation and restoration strategies that strengthen biodiversity networks.

Through AI-based habitat classification and connectivity modelling, we assess the condition and continuity of green and pollinator corridors, identifying barriers to movement and areas of ecological opportunity. These insights support urban planners, developers, and municipalities in designing mitigation and restoration strategies that strengthen biodiversity networks.

Data Analysis, Visualization,
and Reporting

Data Analysis, Visualization,
and Reporting

Data Analysis, Visualization,
and Reporting

Results are delivered through dynamic visualization tools and structured reports, where, users can track ecosystem condition, identify areas of degradation or improvement, and monitor post-development biodiversity change. This service supports transparent reporting, long- term habitat management, and evidence-based decision-making for sustainable land use and restoration projects.

Results are delivered through dynamic visualization tools and structured reports, where, users can track ecosystem condition, identify areas of degradation or improvement, and monitor post-development biodiversity change. This service supports transparent reporting, long- term habitat management, and evidence-based decision-making for sustainable land use and restoration projects.

Results are delivered through dynamic visualization tools and structured reports, where, users can track ecosystem condition, identify areas of degradation or improvement, and monitor post-development biodiversity change. This service supports transparent reporting, long- term habitat management, and evidence-based decision-making for sustainable land use and restoration projects.

Get in touch with us

Get in touch with us

We'd love you hear from you! Whether you are exploring a collaboration,
interested in a project,looking for a quote, or joining our team?

We'd love you hear from you! Whether you are exploring a collaboration,
interested in a project,looking for a quote, or joining our team?

Based in:
📍 Helsinki, Finland.
📍 Copenhagen, Denmark.

Contact Us

Contact Us

Contact Us

More About Us:

Urban 3 Maria01

More About Us:

Urban 3 Maria01

More About Us:

Urban 3 Maria01