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Our projects demonstrate how
multi-source data can transform
Urban Infastructure

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.

Our projects demonstrate how
multi-source data can transform
Urban Infastructure

Agroforestry in Nyland

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.

In collaboration with a local farmer, Joshua, in Nyland, we are supporting an agroforestry project aimed at improving soil health, biodiversity, and carbon sequestration. Using LENSOR's geospatial monitoring tools, we analyze vegetation structure and land-use patterns to assess the ecological impact of integrating trees and crops. The project demonstrates how data-driven insights can guide sustainable agricultural practices while enhancing ecosystem services.

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.

Learn more about our project

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.

City of Helsinki biotope mapping

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.

LENSOR collaborated with the City of Helsinki under the ARVO initiative to advance urban biodiversity assessment through AI-supported biotope classification. The project focused on mapping and categorizing urban habitats using multi-source geospatial data, including satellite imagery.

By integrating ecological expertise with automated spatial analysis, the collaboration enabled the city to obtain a clearer understanding of habitat types, condition, and connectivity across its green infrastructure. The results support Helsinki's long-term goals for biodiversity preservation, nature-based urban planning, and data-driven environmental management.

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.

Learn more about our project

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.

Forum Virium pilotgreen sustainable green space management

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.

In partnership with Forum Virium Helsinki and Viherpalvelut Hyvönen, Lensor participated in the PilotGreen initiative to enhance the maintenance and ecological monitoring of urban green spaces in Helsinki. The pilot used satellite and AI-based analysis, alongside on-site field measurements, to monitor lawn growth, detect invasive species and reduce resource-intensive inspections.

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.

By merging multi-source data; including satellite imagery and LiDAR with field-verified observations, the project delivered targeted insights into vegetation condition, invasive species concentrations, and green space performance. The outcome enabled more efficient maintenance decisions, improved data transparency, and stronger foundations for long-term urban biodiversity management.

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.

Learn more about our project

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.

EIT food farm Italy

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.

In collaboration with EIT Food and Italian partner Luca Fusi, Lensor is engaged in a pilot project at an Italian agri-site to support sustainable farm development through geospatial and vegetation monitoring. Leveraging satellite and field-based datasets, we are mapping vegetation to inform on crop health and chemical inputs reduction strategies.

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.

Projects

Projects

Our projects demonstrate howmulti-source data can transformUrban Infastructure

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.

Our projects demonstrate howmulti-source data can transformUrban Infastructure

Agroforestry in Nyland

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.

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.

Learn more about our project

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.

City of Helsinki biotope mapping

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.

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.

Learn more about our project

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.

Forum Virium pilotgreen sustainable green space management

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.

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.

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.

Learn more about our project

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.

EIT food farm Italy

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.

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.

Our projects demonstrate how
multi-source data can transform
Urban Infastructure

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.

Our projects demonstrate how
multi-source data can transform
Urban Infastructure

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.

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.