The green cover of the earth exhibits various spatial gradients that represent gradual changes in space of vegetation density and/or in species composition. To date, land cover mapping methods differentiate at best, mapping units with different cover densities and/or species compositions, but typically fail to express such differences as gradients. Present interpretation techniques still make insufficient use of freely available spatial-temporal Earth Observation (EO) data that allow detection of existing land cover gradients. This study explores the use of hyper-temporal NDVI imagery to detect and delineate land cover gradients analyzing the temporal behavior of NDVI values. MODIS-Terra MVC-images (250 m, 16-day) of Crete, Greece, from Feb...
Land cover plays an important role in the Earth's climate as it affects multiple biochemical cycles ...
A rule-based classification model was developed to derive land-cover information from a large set of...
The normalized difference vegetation index (NDVI) time-series database, derived from NOAA/AVHRR, SPO...
Both agricultural area expansion and intensification are necessary to cope with the growing demand f...
A new quantitative method extracts a landscape heterogeneity map (LaHMa) from hyper-temporal remote-...
This study proposed a multi-target hierarchical detection (MTHD) method to simultaneously and automa...
This paper presents a novel methodological approach to countrywide vegetation mapping. We used green...
Calculation of vegetation indices, especially Normalized Difference Vegetation Index (NDVI), has bec...
Temporal-related features are important for improving land cover classification accuracy using remot...
MODIS has been providing daily imagery for retrieving land surface properties with a spatial resolut...
Hyper-temporal SPOT NDVI images contain useful information about the environment in which a species ...
AbstractMODIS has been providing daily imagery for retrieving land surface properties with a spatial...
Summarization: The main objective of this study was to explore the impact of various spectral indice...
Since 2000, MODIS has been providing daily imagery with a fine spatial res- olution (250 m) for retr...
Time series vegetation indices with high spatial resolution and high temporal frequency are importan...
Land cover plays an important role in the Earth's climate as it affects multiple biochemical cycles ...
A rule-based classification model was developed to derive land-cover information from a large set of...
The normalized difference vegetation index (NDVI) time-series database, derived from NOAA/AVHRR, SPO...
Both agricultural area expansion and intensification are necessary to cope with the growing demand f...
A new quantitative method extracts a landscape heterogeneity map (LaHMa) from hyper-temporal remote-...
This study proposed a multi-target hierarchical detection (MTHD) method to simultaneously and automa...
This paper presents a novel methodological approach to countrywide vegetation mapping. We used green...
Calculation of vegetation indices, especially Normalized Difference Vegetation Index (NDVI), has bec...
Temporal-related features are important for improving land cover classification accuracy using remot...
MODIS has been providing daily imagery for retrieving land surface properties with a spatial resolut...
Hyper-temporal SPOT NDVI images contain useful information about the environment in which a species ...
AbstractMODIS has been providing daily imagery for retrieving land surface properties with a spatial...
Summarization: The main objective of this study was to explore the impact of various spectral indice...
Since 2000, MODIS has been providing daily imagery with a fine spatial res- olution (250 m) for retr...
Time series vegetation indices with high spatial resolution and high temporal frequency are importan...
Land cover plays an important role in the Earth's climate as it affects multiple biochemical cycles ...
A rule-based classification model was developed to derive land-cover information from a large set of...
The normalized difference vegetation index (NDVI) time-series database, derived from NOAA/AVHRR, SPO...