SREQP: A Solar Radiation Extraction and Query Platform for the Production and Consumption of Linked Data from Weather Stations Sensors Articles uri icon

authors

  • SANCHEZ CERVANTES, JOSE LUIS
  • RADZIMSKI, MATEUSZ KAROL
  • RODRIGUEZ ENRIQUEZ, CRISTIAN AARON
  • ALOR HERNANDEZ, GINER
  • RODRÍGUEZ MAZAHUA, LISBETH
  • SANCHEZ RAMIREZ, CAUAUHTEMOC
  • RODRIGUEZ GONZALEZ, ALEJANDRO

publication date

  • March 2016

start page

  • 1

end page

  • 18

issue

  • 2825653

volume

  • 2016

International Standard Serial Number (ISSN)

  • 1687-725X

Electronic International Standard Serial Number (EISSN)

  • 1687-7268

abstract

  • Nowadays, solar radiation information is provided from sensors installed in different geographic locations and platforms of meteorological agencies. However, common formats such as PDF files and HTML documents to provide solar radiation information do not offer semantics in their content, and they may pose problems to integrate and fuse data from multiple resources. One of the challenges of sensors Web is the unification of data from multiple sources, although this type of information facilitates interoperability with other sensor Web systems. This research proposes architecture SREQP (Solar Radiation Extraction and Query Platform) to extract solar radiation data from multiple external sources and merge them on a single and unique platform. SREQP makes use of Linked Data to generate a set of triples containing information about extracted data, which allows final users to query data through a SPARQL endpoint. The conceptual model was developed by using known vocabularies, such as SSN or WGS84. Moreover, an Analytic Hierarchy Process was carried out for the evaluation of SREQP in order to identify and evaluate the main features of Linked-Sensor-Data and the sensor Web systems. Results from the evaluation indicated that SREQP contained most of the features considered essential in Linked-Sensor-Data and sensor Web systems.

subjects

  • Computer Science

keywords

  • analytic hierarchy process; web; information; systems; methodology; environment; ahp