Continuous space estimation: increasing WiFi-based indoor localization resolution without increasing the site-survey effort Articles uri icon

authors

  • HERNÁNDEZ PARRA, NOELIA
  • OCAÑA, MANUEL
  • ALONSO, JOSE M.
  • KIM, EUNTAI

publication date

  • January 2017

start page

  • 1

end page

  • 23

issue

  • 1, 147

volume

  • 17

International Standard Serial Number (ISSN)

  • 1424-3210

Electronic International Standard Serial Number (EISSN)

  • 1424-8220

abstract

  • Although much research has taken place in WiFi indoor localization systems, their accuracy can still be improved. When designing this kind of system, fingerprint-based methods are a common choice. The problem with fingerprint-based methods comes with the need of site surveying the environment, which is effort consuming. In this work, we propose an approach, based on support vector regression, to estimate the received signal strength at non-site-surveyed positions of the environment. Experiments, performed in a real environment, show that the proposed method could be used to improve the resolution of fingerprint-based indoor WiFi localization systems without increasing the site survey effort.

subjects

  • Robotics and Industrial Informatics

keywords

  • wifi indoor localization; fingerprinting; continuous space estimation; machine learning; location-based services