Guidebook
Integrating Meta’s Canopy Height Model into Forest Carbon Methodologies
Discover how Meta’s open-source canopy height model and AI tools can support more accurate, cost-effective forest carbon project development. This guidebook gives developers and registries practical tips on applying high-resolution remote sensing (RS) data across key project activities.
Key takeaways
How high-resolution RS improves planning and monitoring
Why data validation supports accurate and credible crediting
What technical needs must be addressed to scale RS in carbon markets
Guidebook
Integrating Meta’s Canopy Height Model into Forest Carbon Methodologies
Discover how Meta’s open-source canopy height model and AI tools can support more accurate, cost-effective forest carbon project development. This guidebook gives developers and registries practical tips on applying high-resolution remote sensing (RS) data across key project activities.
Key takeaways
How high-resolution RS improves planning and monitoring
Why data validation supports accurate and credible crediting
What technical needs must be addressed to scale RS in carbon markets
Guidebook
Integrating Meta’s Canopy Height Model into Forest Carbon Methodologies
Discover how Meta’s open-source canopy height model and AI tools can support more accurate, cost-effective forest carbon project development. This guidebook gives developers and registries practical tips on applying high-resolution remote sensing (RS) data across key project activities.
Key takeaways
How high-resolution RS improves planning and monitoring
Why data validation supports accurate and credible crediting
What technical needs must be addressed to scale RS in carbon markets