Add to ORKGAccurately mapping tree species composition and diversity is a critical step towards spatially explicit and species-specific ecological understanding. The National Ecological Observatory Network (NEON) is a valuable source of open ecological data across the United States. Freely available NEON data include in-situ measurements of individual trees, including stem locations, species, and crown diameter, along with the NEON Airborne Observation Platform (AOP) airborne remote sensing imagery, including hyperspectral, multispectral, and light detection and ranging (LiDAR) data products. An important aspect of predicting species using remote sensing data is creating high-quality training sets for optimal classification purposes. Ultimately, manua...
NASA Goddard’s LiDAR, Hyperspectral, and Thermal imager provides co-registered remote sensing data o...
Deep learning (DL) has shown promising performances in various remote sensing applications as a powe...
The classification of individual tree species (ITS) is beneficial to forest management and protectio...
The use of light detection and ranging (LiDAR) techniques for recording and analyzing tree and fores...
Airborne remote sensing offers unprecedented opportunities to efficiently monitor vegetation, but me...
The change, reduction, or extinction of species is a major issue currently facing the Earth. Efforts...
A fundamental question of forestry is that of species composition: which species are present, and wh...
Data on individual tree crowns from remote sensing have the potential to advance forest ecology by p...
Timely and accurate information on tree species (TS) is crucial for developing strategies for sustai...
Remote sensing of individual tree species has many applications in resource management, biodiversit...
Recent advances in remote sensing technology provide sufficient spatial detail to achieve species-le...
In this study, we automate tree species classification and mapping using field-based training data, ...
To sustainably manage forest biodiversity and monitor changes in species patterning, mapping the spa...
Plant species identification and mapping based on remotely-sensed spectral signatures is a challengi...
Digital Publication of the training data polygons and hyperspectral imagery used in the manuscript "...
NASA Goddard’s LiDAR, Hyperspectral, and Thermal imager provides co-registered remote sensing data o...
Deep learning (DL) has shown promising performances in various remote sensing applications as a powe...
The classification of individual tree species (ITS) is beneficial to forest management and protectio...
The use of light detection and ranging (LiDAR) techniques for recording and analyzing tree and fores...
Airborne remote sensing offers unprecedented opportunities to efficiently monitor vegetation, but me...
The change, reduction, or extinction of species is a major issue currently facing the Earth. Efforts...
A fundamental question of forestry is that of species composition: which species are present, and wh...
Data on individual tree crowns from remote sensing have the potential to advance forest ecology by p...
Timely and accurate information on tree species (TS) is crucial for developing strategies for sustai...
Remote sensing of individual tree species has many applications in resource management, biodiversit...
Recent advances in remote sensing technology provide sufficient spatial detail to achieve species-le...
In this study, we automate tree species classification and mapping using field-based training data, ...
To sustainably manage forest biodiversity and monitor changes in species patterning, mapping the spa...
Plant species identification and mapping based on remotely-sensed spectral signatures is a challengi...
Digital Publication of the training data polygons and hyperspectral imagery used in the manuscript "...
NASA Goddard’s LiDAR, Hyperspectral, and Thermal imager provides co-registered remote sensing data o...
Deep learning (DL) has shown promising performances in various remote sensing applications as a powe...
The classification of individual tree species (ITS) is beneficial to forest management and protectio...