The vertical and horizontal structure of forest canopies is one of the most important driving factors of various ecosystem processes and has received increasing attention during the past 20 years and served as an impetus for earth observation missions. In the remote sensing community, the variables which describe canopy structure are called biophysical variables, and are directly coupled with the fundamental physical problem behind remote sensing: radiative transfer in vegetation. There are basically three different approaches to interpreting biophysical variables from remotely sensed data: (1) empirical, (2) physically based, and (3) various combinations of them. The physical approach builds upon an understanding of the physical laws gover...
Earth observations collected by remote sensors provide unique information to our ever-growing knowle...
Solar radiation, the radiant energy from the sun, is a driving variable for numerous ecological, phy...
Coniferous species are present in almost all major vegetation biomes on Earth, though they are the m...
Understanding the interaction of radiation with vegetation canopies requires a knowledge of the spec...
The concept of canopy spectral invariants expresses the observation that simple algebraic combinatio...
This paper presents empirical and theoretical analyses of spectral hemispherical reflectances and tr...
Imaging spectrometer data were acquired over conifer stands to retrieve spatially distributed inform...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
Context Remote sensing methods, and in particular very high (metric) resolution optical imagery, are...
The paper introduces a three-dimensional model to derive the spatial patterns of photosynthetically ...
In this thesis the work of the author on the modelling of radiative transfer in vegetation canopies ...
Land ecosystems, in particular forest ecosystems, are under increasing pressure from environmental c...
In this thesis the work of the author on the modelling of radiative transfer in vegetation canopies ...
Earth observations collected by remote sensors provide unique information to our ever-growing knowle...
Solar radiation, the radiant energy from the sun, is a driving variable for numerous ecological, phy...
Coniferous species are present in almost all major vegetation biomes on Earth, though they are the m...
Understanding the interaction of radiation with vegetation canopies requires a knowledge of the spec...
The concept of canopy spectral invariants expresses the observation that simple algebraic combinatio...
This paper presents empirical and theoretical analyses of spectral hemispherical reflectances and tr...
Imaging spectrometer data were acquired over conifer stands to retrieve spatially distributed inform...
The forest canopy is a region of vast ecological relevance constituting the bulk for photosynthetica...
Context Remote sensing methods, and in particular very high (metric) resolution optical imagery, are...
The paper introduces a three-dimensional model to derive the spatial patterns of photosynthetically ...
In this thesis the work of the author on the modelling of radiative transfer in vegetation canopies ...
Land ecosystems, in particular forest ecosystems, are under increasing pressure from environmental c...
In this thesis the work of the author on the modelling of radiative transfer in vegetation canopies ...
Earth observations collected by remote sensors provide unique information to our ever-growing knowle...
Solar radiation, the radiant energy from the sun, is a driving variable for numerous ecological, phy...
Coniferous species are present in almost all major vegetation biomes on Earth, though they are the m...