Monitoring Changes to Arctic Vegetation and Glaciers at Ny-Ålesund, Svalbard, Based on Time Series Remote Sensing.
Guangbo RenJianbu WangYunfei LuPeiqiang WuXiaoqing LuChen ChenYi MaPublished in: Remote. Sens. (2021)
Keyphrases
- remote sensing
- satellite data
- earth observation
- remote sensing data
- multispectral
- climate change
- change detection
- land cover
- remote sensing images
- remote sensing imagery
- hyperspectral
- high resolution
- satellite images
- image analysis
- remotely sensed
- image fusion
- digital image analysis
- image processing
- satellite imagery
- high spatial resolution
- automatic image registration
- remotely sensed data
- land cover classification
- hyperspectral remote sensing
- landsat tm
- remote sensed images
- remotely sensed images
- remotely sensed imagery
- hyperspectral imaging
- multi spectral images
- hyperspectral data
- hyperspectral imagery
- earth science
- geographical information systems
- digital images
- environmental sciences
- high resolution satellite images
- hyperspectral images
- normalized difference vegetation index