We generalize Ripley’s K function to get a new function, M, to characterize the spatial structure of a point pattern relatively to another one. We show that this new approach is pertinent in ecology when space is not homogenous and the size of objects matters. We present how to use the function and test the data against the null hypothesis of independence between points. In a tropical tree data set we detect intraspecific aggregation and interspecific competition
The dbmss package for R provides an easy-to-use toolbox to characterize the spatial structure of poi...
Ripley’s 835 c3e function is the classical tool to characterize the spatial structure of point patt...
Many if not all data collected in ecology have both a spatial as well as a temporal dimension. This ...
International audienceWe generalize Ripley's K function to get a new function, M, to characterize th...
In spatial statistics, Ripley's K function (Ripley, 1977) is a classical tool to analyse spatial poi...
We describe a range of methods for the description and analysis of spatial point patterns in plant e...
Summary: 1. This article reviews the application of some summary statistics from current theory o...
Three functions that analyze point patterns are the L (a transformation of Ripley’s K function), pai...
Spatial heterogeneity is a characteristic of most natural ecosystems which is difficult to handle an...
Many ecological questions could gain insight from linking variation in spatial structure to explanat...
This paper presents a collection of dissimilarity measures to describe and then classify spatial poi...
For ecology scientists, spatial statistics are a set of tools allowing characterization of the struc...
<p>The normalized and centered Ripley’s K function is proportional to the number of pairs of points...
[Departement_IRSTEA]DS [TR1_IRSTEA]51 - METHODO / MAGESTYCInternational audienceSpatial heterogeneit...
Spatial patterns of tropical tree populations may contribute to the identification of underlying eco...
The dbmss package for R provides an easy-to-use toolbox to characterize the spatial structure of poi...
Ripley’s 835 c3e function is the classical tool to characterize the spatial structure of point patt...
Many if not all data collected in ecology have both a spatial as well as a temporal dimension. This ...
International audienceWe generalize Ripley's K function to get a new function, M, to characterize th...
In spatial statistics, Ripley's K function (Ripley, 1977) is a classical tool to analyse spatial poi...
We describe a range of methods for the description and analysis of spatial point patterns in plant e...
Summary: 1. This article reviews the application of some summary statistics from current theory o...
Three functions that analyze point patterns are the L (a transformation of Ripley’s K function), pai...
Spatial heterogeneity is a characteristic of most natural ecosystems which is difficult to handle an...
Many ecological questions could gain insight from linking variation in spatial structure to explanat...
This paper presents a collection of dissimilarity measures to describe and then classify spatial poi...
For ecology scientists, spatial statistics are a set of tools allowing characterization of the struc...
<p>The normalized and centered Ripley’s K function is proportional to the number of pairs of points...
[Departement_IRSTEA]DS [TR1_IRSTEA]51 - METHODO / MAGESTYCInternational audienceSpatial heterogeneit...
Spatial patterns of tropical tree populations may contribute to the identification of underlying eco...
The dbmss package for R provides an easy-to-use toolbox to characterize the spatial structure of poi...
Ripley’s 835 c3e function is the classical tool to characterize the spatial structure of point patt...
Many if not all data collected in ecology have both a spatial as well as a temporal dimension. This ...