Use of high-resolution multispectral imagery acquired with an autonomous unmanned aerial vehicle to quantify the spread of an invasive wetlands species.
Bushra ZamanAustin M. JensenMac McKeePublished in: IGARSS (2011)
Keyphrases
- unmanned aerial vehicles
- multispectral
- high resolution
- remote sensing
- satellite images
- low resolution
- remote sensing data
- satellite imagery
- image data
- remote sensing images
- path planning
- super resolution
- spatial resolution
- multispectral images
- high frequency
- change detection
- high spatial resolution
- hyperspectral
- multi band
- image processing
- control algorithm
- image fusion
- remotely sensed
- land cover classification
- human operators
- high quality
- digital elevation models
- land cover
- dynamic environments
- multi spectral images
- multispectral satellite images
- hyperspectral imagery
- hyperspectral data
- spectral characteristics
- spectral bands
- mobile robot
- spectral images
- image analysis
- hyperspectral images
- face images
- higher resolution