NO GUESSWORK. NO UNDERESTIMATES.
Science-driven intelligence for environmental monitoring. Custom A.I. models and geospatial solutions. Expert consultancy. Proven impact.
Leading organizations taking environmental monitoring to the next level
Advanced technology meets environmental expertise: discover how our solutions deliver precision at scale.
End-to-end environmental monitoring at the forefront of science
Map vegetation cover, measure biomass and carbon using 3D data with high accuracy using LiDAR-powered AI models and high resolution images
Our technology deliver the most precise carbon measurements available
Eliminating costly underestimations and providing interactive, transparent reports validated by advanced scientific research.
Highest accuracy measurements
Methodology that prevents frequent underestimations in conventional approaches
Interactive reporting
Dashboards with auditable and transparent methodology
Frontier science validation
Statistically based and validated models
Risk elimination
Uncertainty reduction through rigorous scientific validation
One technology, multiple applications
Our science-driven intelligence adapts to the most diverse demands for measurement, monitoring, reporting, and verification across different market segments. From carbon credits to conservation compliance, we deliver the precision each sector requires.
More precision generates more impact:
How advanced methodology transforms environmental monitoring into measurable results
Carbon Measurement
From the field to the boardroom
Forward-thinking teams who upgraded from conventional methods to our approach
Coordenador de projetos e pesquisa
“ IPÊ has been using the Floreviewer system, developed by Bioflore, to enhance the monitoring of forest restoration and carbon stocks. The tool has brought improvements such as data standardization, faster data collection, and greater integration among teams. With it, IPÊ has consolidated previously scattered information, enabling better tracking of carbon maps across restoration polygons. Among the results are improved reporting, increased transparency, and more accurate carbon estimates. This has strengthened institutional credibility and supported strategic decision-making. Floreviewer has become an essential ally in qualifying restoration actions and amplifying their positive impacts on the Atlantic Forest. ”
CEO
“ LandPrint, as a company specializing in the classification of environmental assets, needs credible, robust, and scalable measurements. Bioflore provides the level of reliability and customization required in a constantly evolving market. ”
Superintendente
“ The Environmental Education Center of AngloGold Ashanti safeguards an area of over 140 hectares of Atlantic Forest that we previously knew only from one perspective. With the support of Bioflore, we've come to see the full environmental richness of our area in a unique and immersive way. This has made our educational and environmental awareness processes even more meaningful. It proves how technology can be a powerful ally in driving positive social and environmental transformation. ”
CEO
“ Bioflore's work had a profound impact on VerdeNovo's solution. They brought us measurement and monitoring technology in a way that is simple, robust, and brings real, tangible benefits to our work with communities and ecological restoration. I'm very proud to see that my work, in Bioflore's hands, reaches another scale, dimension, and depth. I'm always grateful for the partnership. ”
1. Science-Based Precision
Our methodology combines high-resolution LiDAR with AI models developed specifically for each project context, ensuring measurements that exceed conventional accuracy standards.
2. Scale Without Compromising Quality
We monitor everything from small restoration areas to millions of hectares while maintaining the same scientific rigor, something impossible with traditional field methods.
3. Implementation Speed
We transform years of development into weeks of implementation, delivering functional models quickly without compromising the scientific quality of results.
4. Impact-Oriented Results
We develop solutions focused on real impact for conservation and communities, not just technical data generation or regulatory compliance requirements.
Selected by prestigious programs and competitions worldwide
Our innovation has been consistently recognized by leading accelerators, global competitions, and innovation programs. From winning international competitions to being selected among hundreds of startups for exclusive innovation ecosystems, these recognitions validate our pioneering approach to environmental monitoring technology.
Heitor Filpi
CEO
Co-Founder
Forest Engineer with a Master's degree and currently pursuing a PhD in agricultural and forest systems modeling. Creator of the climate zoning project for multiple biomes, awarded by WWF Brazil. Co-founder and CEO of Bioflore, the startup that won the national stage of Climate Launchpad in 2021 and was recognized as a featured startup in Conexões Onda Verde by Climate Ventures in 2022. Holds specialization in Forest Sciences from Lincoln University, New Zealand, and has experience in forest conservation projects in California.
Danilo R. A. Almeida
Technical Director
Co-Founder
Forest Engineer graduated from the Federal University of Viçosa (UFV), with a Master's degree from the National Institute for Amazon Research (INPA) and PhD from the Luiz de Queiroz College of Agriculture (ESALQ-USP). Completed post-doctoral studies in Brazil, the United States (UF), and the United Kingdom (Bangor), specializing in remote sensing applied to tropical forests. Author of over 80 scientific articles in high-impact journals and advisor to graduate students, with extensive knowledge in environmental monitoring methodologies and carbon stock and biodiversity estimates. In the carbon market, he served as director of Aliança Brasil NBS and currently serves as director of Universidade do Carbono, where he also coordinates the MBA Nature-Based Solutions: Carbon Market and Projects. As co-founder of Bioflore, he leads high-precision environmental monitoring projects focused on generating environmental assets and biodiversity assessment.
Paulo Guilherme Molim
Researcher Collaborator
Paulo Guilherme Molin holds a degree in Environmental Management from the Luiz de Queiroz College of Agriculture at the University of São Paulo (ESALQ/USP, 2008), a Master’s degree in Geospatial Technologies from the Erasmus Mundus program, with training at the University of Münster (Germany), Universidade Nova de Lisboa (Portugal), and Universitat Jaume I (Spain), and a Ph.D. in Forest Resources from ESALQ/USP (2014). His research focuses on the planning and monitoring of forest and ecological restoration using geotechnologies. He specializes in the development of spatially explicit scenarios for the quantification and qualification of ecosystem services and climate change mitigation. His approaches integrate geotechnologies such as remote sensing, drones, spatial modeling, GIS, and GNSS, with applications in biodiversity, carbon stock, and ecosystem services. He is currently a professor at the Federal University of São Carlos (UFSCar) and a faculty member of the Graduate Program in Forest Resources (PPGRF/ESALQ-USP).
Matheus Ferreira
Researcher Collaborator
Matheus Pinheiro Ferreira is a Forest Engineer from UFPR (2010), with complementary training at the University of Freiburg/Germany, and holds a Master's degree (2012) and PhD (2017) in Remote Sensing from INPE. His research focuses on using remote sensing and artificial intelligence to monitor tropical forests, map tree species, and quantify floristic diversity and carbon stocks. He has experience with hyperspectral data, LiDAR, and radiative transfer modeling. He served as Assistant Professor at IME (2018–2024) and currently serves as Professor Doctor in the Forest Sciences Department at ESALQ/USP and as a collaborative researcher at Bioflore.
Guttardo Pereira
CTO e Co-founder
Guttardo focuses his work on forest ecology, management, and monitoring of forest landscape restoration using unmanned aerial vehicles, leveraging LiDAR and hyperspectral technologies. He holds a degree in Forest Engineering and has completed a master's, doctorate, and post-doctorate in Forest Sciences. He specializes in forest monitoring with orbital sensors and drone-mounted equipment. As a co-founder and CTO of Bioflore, Guttardo has published 9 articles as the lead author in peer-reviewed journals and has over 60 collaborations. His H-index is 25, and his i10-index is 43.
1. Is your advanced technology more expensive than traditional monitoring methods?
Our methodology, including custom model development and project-specific solutions, delivers exceptional results with transparent, rigorous reporting while significantly reducing monitoring costs over the project lifecycle. By maintaining high precision and scientific rigor throughout the entire monitoring period, clients achieve better long-term value compared to conventional approaches.
2. Is this technology too complex for our team to manage?
3. How can we be confident in the reliability of your scientific approach?
4. Will this technology work for our specific biome and project context?
5. What if we need operational independence or want to reduce external dependencies?
Ready to explore solutions for your project?
Environmental monitoring success depends on understanding your unique context and objectives. Our team combines deep scientific expertise with practical field experience to design monitoring strategies that address your specific challenges while meeting the highest standards of accuracy.
In the news
Our innovative approach to forest monitoring has been featured in leading publications and broadcasts
Researchers calculate the dimension of positive environmental impact generated by one of the world's largest open-air museums in MG
The innovative artificial intelligence technology for identifying trees is similar to facial recognition, the one used in security devices
Forest guardians
Using machine learning technology for floristic identification, Bioflore develops a platform for remote sensing and monitoring of large forest areas
LandPrint and Bioflore Case: Building relationships between startups
The Open Innovation in Agribusiness research report presents business cases that were born in the PwC Agtech Innovation
Vision of Heitor Filpi, co-founder of Bioflore: new paths for forest restoration and conservation
Our mission is to lead the market for technologies for management, measurement and monitoring of environmental assets, transforming native vegetation and natural ecosystems into economically valuable assets.
Brazilian technology leads revolution in environmental conservation
Advanced biodiversity monitoring and management platform developed by Bioflore will be the differential of the team competing for the top prize of the XPrize Rainforest
Three businesses with innovative ideas against waste
The regional finalists of the ClimateLaunchpad competition show solutions for more efficient use of natural and economic resources
Bioflore & TGBS: Revolutionizing Biodiversity Monitoring | Nature-based Solutions
Bioflore joins forces with The Global Biodiversity Standard (TGBS) to transform environmental monitoring on a global scale. Our pioneering technology combines remote sensing and artificial intelligence with local communities' traditional knowledge, setting new standards for conservation and restoration projects.
FloreViewer for the Cerrado
Development of the FloreViewer platform to automate carbon and floristic diversity monitoring in the Cerrado biome