Published by Ricardo Alonso Maturana
25/04/2017
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Next Web: web 3.0, web semántica y el futuro de internet
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Next Web es un espacio donde en estos más de 10 años se ha recopilado y analizado el desarrollo de la web y el modo en el que el conjunto de tecnologías emergentes que están haciendo posible internet están influyendo en el desarrollo de una vida socio-digital feliz, la construcción de la identidad digital de las personas y las organizaciones y la aceleración de los procesos sociales de aprendizaje. Todo ello gracias al ejercicio de la sociabilidad simultánea y al acceso a la información e inteligencia ubicuas.
Empresas, agentes de capital riesgo, instituciones, investigadores, profesores, ‘start-ups’, ‘bloggers’, internautas avanzados, activistas en internet y, en general, todos aquellos que crean en el poder de transformación social de la tecnología, tienen su espacio en Next Web, comunidad promovida por el Equipo GNOSS.
Published by Ricardo Alonso Maturana
25/04/2017
Published by Equipo GNOSS
06/12/2016
Article from Dataversity, published by By Jennifer Zaino , November 29, 2016. "Are you hearing the term “Semantic Web” as often as you may have in the past? There’s no denying the importance of the technologies, standards, concepts, and collaborations that define the Semantic Web proper and all that is affiliated with it or grown out of it. [...] As we head into 2017, DATAVERSITY® wanted to follow up the state of the Semantic Web and Semantic technologies (both standards-body related and not)." Read full article.
Published by Ricardo Alonso Maturana
29/10/2015
Abstract. Graphs naturally represent Linked Data and implementations of graph-based tasks are required not only for data consumption, but also for mining patterns among links. Despite efficient graph-based algorithms and engines have been implemented, there is no clear understanding of how these solutions may behave on Linked Data
Published by Ricardo Alonso Maturana
29/10/2015
There are triplestores (semantic databases), and there are general-purpose graph databases. Both are based on the similar concepts of linking one "item" to another via a relationship. Triplestores support RDF and are queried by SPARQL, but such add-ons can be (and are) implemented ontop of general-purpose graph databases as well. What is the fundamental difference that would make you prefer a semantic db / triplestore to a general purpose graph database like neo4j?
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Published by Ricardo Alonso Maturana
29/10/2015
Graph Databases vs. RDF Triple Stores
To summarize, both graph databases and triple stores are designed to store linked data. RDF is a specific kind of linked data that is queried using SPARQL, so it is fair to say that RDF triple stores are a kind of graph database. But, there are some subtle but important differences that are described below.
How They Are Similar
· Graph databases and rdf triple stores focus on the relationships between the data, often referred to as “linked data.” Data points are called nodes, and the relationship between one data point and another is called an edge.
· A web of nodes and edges can be put together into interesting visualizations&mdash...
Published by Ricardo Alonso Maturana
29/10/2015
A comparison of two graph data models - RDF and Property Graphs.
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Published by Pablo Hermoso de Mendoza González
20/09/2013
Recomendaciones del grupo de trabajo en el estandar semántico RDF. Agosto 2013. The RDFa Working Group today published three RDFa Recommendations. RDFa lets authors put machine-readable data in HTML documents. Using RDFa, authors may turn their existing human-visible text and links into machine-readable data without repeating content.
Published by Equipo GNOSS
21/12/2012
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Published by Alberto Ortiz Capellán
30/07/2012
Cwm (pronunciado COOM) es un procesador de datos de uso general para la web semántica, algo así como sed, awk, etc para los archivos de texto o XSLT para XML. Es un razonador que se puede utilizar para consultar, control, transformación y filtrado de la información. Su lenguaje principal es RDF, ampliado para incluir las normas, y utiliza serializaciones RDF / XML o RDF/N3 (ver Notation3 Primer) según sea necesario.
Cwm está escrito en python, es parte de SWAP, una plataforma de aplicación Web Semántica. Es de código abierto bajo la licencia de software del W3C.
Published by Equipo GNOSS
13/07/2012
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