14,447 research outputs found

    Statistical and spatial analysis of landslide susceptibility maps with different classification systems

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    The final publication is available at Springer via http://dx.doi.org/10.1007/s12665-016-6124-1A landslide susceptibility map is an essential tool for land-use spatial planning and management in mountain areas. However, a classification system used for readability determines the final appearance of the map and may therefore influence the decision-making tasks adopted. The present paper addresses the spatial comparison and the accuracy assessment of some well-known classification methods applied to a susceptibility map that was based on a discriminant statistical model in an area in the Eastern Pyrenees. A number of statistical approaches (Spearman’s correlation, kappa index, factorial and cluster analyses and landslide density index) for map comparison were performed to quantify the information provided by the usual image analysis. The results showed the reliability and consistency of the kappa index against Spearman’s correlation as accuracy measures to assess the spatial agreement between maps. Inferential tests between unweighted and linear weighted kappa results showed that all the maps were more reliable in classifying areas of highest susceptibility and less reliable in classifying areas of low to moderate susceptibility. The spatial variability detected and quantified by factorial and cluster analyses showed that the maps classified by quantile and natural break methods were the closest whereas those classified by landslide percentage and equal interval methods displayed the greatest differences. The difference image analysis showed that the five classified maps only matched 9 % of the area. This area corresponded to the steeper slopes and the steeper watershed angle with forestless and sunny slopes at low altitudes. This means that the five maps coincide in identifying and classifying the most dangerous areas. The equal interval map overestimated the susceptibility of the study area, and the landslide percentage map was considered to be a very optimistic model. The spatial pattern of the quantile and natural break maps was very similar, but the latter was more consistent and predicted potential landslides more efficiently and reliably in the study area.Peer ReviewedPreprin

    Poverty(ies) from a gender’s perspective. An approximation to the current Chilean reality

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    El presente escrito analiza la pobreza en Chile. Las acepciones más tradicionales de corte económico, e incluso otras sociales surgidas posteriormente, presentan deficiencias a la hora de aprehender la complejidad de este fenómeno. Limitar la pobreza a la familia, desconociendo las asimetrías de género y de poder presentes al interior de ella y en la sociedad nos brinda una visión parcial de este problema social. Hay que mirar dentro de la “armonía del hogar” y reconocer, además de la carencia material e inmaterial, que existe una carencia temporal que afecta principalmente a las mujeres.This paper analyzes poverty in Chile. The more traditional meanings are economic and even other social meanings subsequently emerged have deficiencies to grasp the complexity of this phenomenon. Limiting poverty to family, ignoring gender asymmetries and power relations within it and in society, it gives us a partial view of this social problem. We have to look into the “harmony of the home” and besides of to recognize the material and immaterial lack, that there is a temporary shortage affecting mainly to women

    Fringe analysis for parallel MacroSplit insertion algorithms in 2--3 trees

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    We extend the fringe analysis (used to study the expected behavior of balanced search trees under sequential insertions) to deal with synchronous parallel insertions on 2--3 trees. Given an insertion of k keys in a tree with n nodes, the fringe evolves following a transition matrix whose coefficients take care of the precise form of the algorithm but does not depend on k or n. The derivation of this matrix uses the binomial transform recently developed by P. Poblete, J. Munro and Th. Papadakis. Due to the complexity of the preceding exact analysis, we develop also two approximations. A first one based on a simplified parallel model, and a second one based on the sequential model. These two approximated analysis prove that the parallel insertions case does not differ significantly from the sequential case, namely on the terms O(1/n^2).Postprint (published version
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