Sustainable Transformation with Economic Impact
Soluciones basadas en la naturaleza (SbN) para asegurar la rentabilidad de los vectores ESG mediante datos geoespaciales e inteligencia artificial (GeoAI)
ESG with Economic Impact: Master Formula for Sustainable City Transformation
At Agforest, we firmly believe sustainability does not hinder operational profitability. We develop effective solutions that consider the economic implications of implementing ESG vectors.
Solar Potential Calculation
Investment Risk Analysis
Identification of Illegal Dumpsites
Crop Yield Prediction and Increased Agricultural Profitability
Nature-Based Solutions (NbS) to Improve Ecosystems
Solar Potential Calculation for Buildings and Vacant Land
Global geopolitical changes and worsening climate change have highlighted the need for energy independence in cities. Achieving the goals of the RePowerEU strategy will require over 445,000 km² (equivalent to Sweden’s area). We use geospatial data and artificial intelligence to identify vacant land with the highest solar potential to facilitate the implementation of renewable energies, promoting sustainable energy independence.
- Calculation of solar potential resulting from the replacement of asbestos roofs
- Topographical analysis and connections to the power grid
- Certification of installed photovoltaic solar panels
We determine the percentage of asbestos roofs that could be utilized with maximum solar potential.
We ensure the profitability of the investment, the accessibility to subsidies for energy transformation and an accurate estimation of the total energy.
Inclinations, slopes or other factors of the territory can have a significant impact on the solar potential.
We analyze all variables through digital twins.
We enable decisions to be made to implement solar farms on the most appropriate vacant land, taking into consideration relevant issues such as grid connection points.
Sometimes companies require extensive field work to certify that their suppliers have installed the agreed number of solar panels.
We use AI and satellite imagery to certify the number of panels installed and ensure accurate payments.
Facilitating Access to Loans for Large and Small Farmers
In the current economic climate, farmers face the challenge of improving the perception traditional financial institutions have of the sector. We use historical geospatial data, processed with AI-based predictive and analytical models, to determine the profitability of a crop. These data help credit institutions evaluate your activity objectively, making decisions based on precise information.
Identifying Illegal Dumpsites and Monitoring Scattered Waste
According to the European Commission, Spain has over 1,500 detected illegal dumpsites. Identifying these sites and monitoring scattered waste is crucial for public health and urban livability, as well as ecosystem protection. We use satellite imagery and AI to assist public administration and waste management companies in locating and monitoring these sites. This can also help prevent environmental disasters such as spills or fires.
Crop Yield Prediction and Increased Agricultural Profitability with AI
In a competitive market, precise data for decision-making is essential for profitability. We develop solutions using geospatial data and AI to predict harvests up to a month in advance. Additionally, we offer farmers tools to monitor tree productivity and soil condition.
Monitor Your Crops
What information can we provide about your crop?
Criteria
Segmentation based on crop productivity
Tree counting
Estimation of canopy size
NDVI evolution analysis
Missing specimens
Water stress assessment
Substrate condition analysis
Nature-Based Solutions (NbS) to Improve Ecosystems
We develop custom technology for public administration and private companies. We promote nature-based solutions to identify and plan sustainable interventions that enhance ecosystems, from habitat restoration to efficient natural resource management. Our unique and detailed perspective facilitates informed decision-making and project implementation to build resilient smart cities.
Unleash the Potential of GeoAI and Join the Sustainable Transformation
Habitat Maps
Understand the evolution of fauna and flora to mitigate the negative effects of climate change.
Early Detection of Forest Fires
Identify the fire source and determine the best routes for action and evacuation.
Post-Fire Analysis
Assess the impact of forest fires on the ecosystem to plan reforestation.
3D Models of Cities and Sites
Make precise decisions in digital replicas of cities to simulate real-life scenarios.
Creation of Evacuation Routes
Extreme weather events give rise to complex situations. Ensuring civil protection in the event of disasters.
Spill Identification
Monitor water spills and predict their path for efficient removal or control.