Temporal-related features are important for improving land cover classification accuracy using remote sensing data. This study investigated the efficacy of phenological features extracted from time series MODIS Normalized Difference Vegetation Index (NDVI) data in improving the land cover classification accuracy of Landsat data. The MODIS NDVI data were first fused with Landsat data via the Spatial and Temporal Adaptive Reflectance Fusion Model (STARFM) algorithm to obtain NDVI data at the Landsat spatial resolution. Next, phenological features, including the beginning and ending dates of the growing season, the length of the growing season, seasonal amplitude, and the maximum fitted NDVI value, were extracted from the fused time series NDV...
Many satellite sensors including Landsat series have been extensively used for land cover classifica...
Studies related to vegetation dynamics in heterogeneous landscapes often require Normalized Differen...
The satellite-derived growing season time-integrated Normalized Difference Vegetation Index (GSN) ha...
Temporal-related features are important for improving land cover classification accuracy using remot...
Accurate regional and global information on land cover and its changes over time is crucial for envi...
A timely and accurate understanding of land cover change has great significance in management of are...
Part 1: GIS, GPS, RS and Precision FarmingInternational audienceRemote sensing based phenology detec...
Due to technical limitations, it is impossible to have high resolution in both spatial and temporal ...
The analysis and classification of land cover is one of the principal applications in terrestrial re...
Vegetation phenology is the st udy of the timing of seasonal events that are considered to be the re...
Time series vegetation indices with high spatial resolution and high temporal frequency are importan...
Time series of images are required to extract and separate information on vegetation change due to p...
Obtaining accurate and timely land cover information is an important topic in many remote sensing ap...
Many satellite sensors including Landsat series have been extensively used for land cover classifica...
Accurate monitoring of grassland biomass at high spatial and temporal resolutions is important for t...
Many satellite sensors including Landsat series have been extensively used for land cover classifica...
Studies related to vegetation dynamics in heterogeneous landscapes often require Normalized Differen...
The satellite-derived growing season time-integrated Normalized Difference Vegetation Index (GSN) ha...
Temporal-related features are important for improving land cover classification accuracy using remot...
Accurate regional and global information on land cover and its changes over time is crucial for envi...
A timely and accurate understanding of land cover change has great significance in management of are...
Part 1: GIS, GPS, RS and Precision FarmingInternational audienceRemote sensing based phenology detec...
Due to technical limitations, it is impossible to have high resolution in both spatial and temporal ...
The analysis and classification of land cover is one of the principal applications in terrestrial re...
Vegetation phenology is the st udy of the timing of seasonal events that are considered to be the re...
Time series vegetation indices with high spatial resolution and high temporal frequency are importan...
Time series of images are required to extract and separate information on vegetation change due to p...
Obtaining accurate and timely land cover information is an important topic in many remote sensing ap...
Many satellite sensors including Landsat series have been extensively used for land cover classifica...
Accurate monitoring of grassland biomass at high spatial and temporal resolutions is important for t...
Many satellite sensors including Landsat series have been extensively used for land cover classifica...
Studies related to vegetation dynamics in heterogeneous landscapes often require Normalized Differen...
The satellite-derived growing season time-integrated Normalized Difference Vegetation Index (GSN) ha...