Understanding the structuration of spatio-temporal information is a common endeavour to many disciplines and application domains, e.g., geography, ecology, urban planning, epidemiology. Revealing the processes involved, in relation to one or more phenomena, is often the first step before elaborating spatial functioning theories and specific planning actions, e.g., epidemiological modelling, urban planning. To do so, the spatio-temporal distributions of meaningful variables from a decision-making viewpoint, can be explored, analysed separately or jointly from an information viewpoint. Using metrics based on the measure of entropy has a long practice in these domains with the aim of quantification of how uniform the distributions are. However...
The concept of entropy connected with GIS is relatively new. Its mathematical background was defined...
The identification of a universal law that can predict the spatiotemporal structure of any entity at...
This paper is concerned with an inquiry into the way in which the organisation of a spatial data set...
Understanding the structuration of spatio-temporal information is a common endeavour to many discipl...
International audienceWhen it comes to characterize the distribution of ‘things’ observed spatially ...
Distinguishing and characterizing different landscape patterns have long been the primary concerns o...
Entropy is a measure of heterogeneity widely used in applied sciences, often when data are collected...
Entropy is widely employed in many applied sciences to measure the heterogeneity of observations. Re...
Entropy measures are standard tools in environmental and ecological sciences to describe the heterog...
The lack of efficiency in urban diffusion is a debated issue, important for biologists, urban specia...
Analysis of a recently validated fragmentation index, named 'coherence', shows a direct relationship...
A very recent proposal of a set of entropy measures for spatial data, based on building pairs of rea...
Analysis of a recently validated fragmentation index, named ‘coherence’, shows a direct relationship...
The concept of entropy connected with GIS is relatively new. Its mathematical background was defined...
The identification of a universal law that can predict the spatiotemporal structure of any entity at...
This paper is concerned with an inquiry into the way in which the organisation of a spatial data set...
Understanding the structuration of spatio-temporal information is a common endeavour to many discipl...
International audienceWhen it comes to characterize the distribution of ‘things’ observed spatially ...
Distinguishing and characterizing different landscape patterns have long been the primary concerns o...
Entropy is a measure of heterogeneity widely used in applied sciences, often when data are collected...
Entropy is widely employed in many applied sciences to measure the heterogeneity of observations. Re...
Entropy measures are standard tools in environmental and ecological sciences to describe the heterog...
The lack of efficiency in urban diffusion is a debated issue, important for biologists, urban specia...
Analysis of a recently validated fragmentation index, named 'coherence', shows a direct relationship...
A very recent proposal of a set of entropy measures for spatial data, based on building pairs of rea...
Analysis of a recently validated fragmentation index, named ‘coherence’, shows a direct relationship...
The concept of entropy connected with GIS is relatively new. Its mathematical background was defined...
The identification of a universal law that can predict the spatiotemporal structure of any entity at...
This paper is concerned with an inquiry into the way in which the organisation of a spatial data set...