Development of an oriented resource efficiency platform in the field of Internet of Things new tecnologies (Desarrollo de una plataforma tecnológica orientada a la eficiencia de los recursos en el campo de las nuevas tecnologies Internet of Things)
Short Description
Smart Ways is a 3-year (2014-2016) funded project by the Spanish Ministry of Economy and Competitiveness (Retos colaboración 2014), for developing an innovative platform aimed at promoting sustainable mobility, which will satisfy the deficiencies in the field of transport. The project will offer a parking and lighting management following the Internet of Thing paradigm. It is a pilot project in Castellon with parking and lighting sensors and apps development for guiding vehicles to find free parking spaces. It also foresees the management of the blue parking zone (paid parking), including the possibility of an option for online payment.
GEOTEC’s contribution
Development of a Parking Simulator and services to suport SmartParking platform and SmartLighting platform.
Publications
Torres-Sospedra, Joaquín; Rambla-Risueño, David; Montoliu-Colás, Raúl; Belmonte-Fernández, Óscar; Huerta-Guijarro, Joaquín UJIIndoorLoc-Mag: A new database for magnetic field-based localization problems Journal Article In: 2015 International Conference on Indoor Positioning and Indoor Navigation, IPIN 2015, 2015, ISBN: 9781467384025. @article{TorresSospedra2015b, title = {UJIIndoorLoc-Mag: A new database for magnetic field-based localization problems}, author = { Joaquín Torres-Sospedra and David Rambla-Risueño and Raúl Montoliu-Colás and Óscar Belmonte-Fernández and Joaquín Huerta-Guijarro}, doi = {10.1109/IPIN.2015.7346763}, isbn = {9781467384025}, year = {2015}, date = {2015-01-01}, journal = {2015 International Conference on Indoor Positioning and Indoor Navigation, IPIN 2015}, abstract = {Indoor localization is a key topic for mobile computing. However, it is still very difficult for the mobile sensing community to compare state-of-art Indoor Positioning Systems due to the scarcity of publicly available databases. Magnetic field-based methods are becoming an important trend in this research field. Here, we present UJIIndoorLoc-Mag database, which can be used to compare magnetic field-based indoor localization methods. It consists of 270 continuous samples for training and 11 for testing. Each sample comprises a set of discrete captures taken along a corridor (or an intersection) with a period of 0.1 seconds. In total, there are almost 40.000 discrete captures, where each one contains features obtained from the magnetometer, the accelerometer and the orientation sensor of the device. The accuracy results obtained using two baseline methods are also presented to show the suitability of the presented database for further comparisons.}, keywords = {}, pubstate = {published}, tppubtype = {article} } Indoor localization is a key topic for mobile computing. However, it is still very difficult for the mobile sensing community to compare state-of-art Indoor Positioning Systems due to the scarcity of publicly available databases. Magnetic field-based methods are becoming an important trend in this research field. Here, we present UJIIndoorLoc-Mag database, which can be used to compare magnetic field-based indoor localization methods. It consists of 270 continuous samples for training and 11 for testing. Each sample comprises a set of discrete captures taken along a corridor (or an intersection) with a period of 0.1 seconds. In total, there are almost 40.000 discrete captures, where each one contains features obtained from the magnetometer, the accelerometer and the orientation sensor of the device. The accuracy results obtained using two baseline methods are also presented to show the suitability of the presented database for further comparisons. |