OpenSearch-geo: the simple standard for geographic web search engines

When publishing information on the web, one expects it to reach all the people that could be interested in. This is mainly achieved with general purpose indexing and search engines like Google which is the most used today. In the particular case of geographic information (GI) domain, exposing content to mainstream search engines is a complex task that needs specific actions. In many occasions it is convenient to provide a web site with a specially tailored search engine. Such is the case for on-line dictionaries (wikipedia, wordreference), stores (amazon, ebay), and generally all those holding thematic databases. Due to proliferation of these engines, A9.com proposed a standard interface called OpenSearch, used by modern web browsers to manage custom search engines. Geographic information can also benefit from the use of specific search engines. We can distinguish between two main approaches in GI retrieval information efforts: Classical OGC standardization on one hand (CSW, WFS filters), which are very complex for the mainstream user, and on the other hand the neogeographer’s approach, usually in the form of specific APIs lacking a common query interface and standard geographic formats. A draft ‘geo’ extension for OpenSearch has been proposed. It adds geographic filtering for queries and recommends a set of simple standard response geographic formats, such as KML, Atom and GeoRSS. This proposal enables standardization while keeping simplicity, thus covering a wide range of use cases, in both OGC and the neogeography paradigms. In this article we will analyze the OpenSearch geo extension in detail and its use cases, demonstrating its applicability to both the SDI and the geoweb. Open source implementations will be presented as well

Surface registration from range image fusion

The registration of full 3-D models is an important task in computer vision. Range finders only reconstruct a partial view of the object. Many authors have proposed several techniques to register 3D surfaces from multiple views in which there are basically two aspects to consider. First, poor registration in which some sort of correspondences are established. Second, accurate registration in order to obtain a better solution. A survey of the most common techniques is presented and includes experimental results of some of them

El Empleo de software libre en el estudio de la morfología de los paisajes antiguos: el ejemplo del modelado coste-distancia aplicado a la investigación arqueológica

Los Sistemas de Información Geográfica (SIG) son una herramienta válida para el estudio de los paisajes antiguos. Los SIG se pueden configurar como un conjunto de medios analíticos útiles para comprender la dimensión espacial de las formaciones sociales y su dinámica histórica. En otras palabras, los SIG posibilitan un acercamiento válido a la racionalidad de las conductas espaciales de una comunidad y a las pautas globales de una sociedad que quedan plasmadas en la morfología de un paisaje. Atendiendo a la abundante y creciente oferta de programas informáticos que procesan y analizan información espacial, enfocaremos las ventajas que supone la adopción de soluciones libres y de código abierto para la investigación arqueológica de los paisajes. Como ejemplo presentaremos el modelado coste-distancia aplicado a un problema locacional arqueológico: la evaluación de la ubicación de los asentamientos respecto a los recursos disponibles en su entorno. El enfoque experimental ha sido aplicado al poblamiento castreño de la comarca de La Cabrera (León). Se presentará una descripción detallada de cómo crear tramos isócronos basados en el cálculo de los costes anisótropos inherentes a la locomoción pedestre. Asimismo, la ventaja que supone la adopción del SIG GRASS para la implementación del análisis