José Javier Astráin scite author profile

This paper presents an intelligent streetlight management system based on LED lamps, designed to facilitate its deployment in existing facilities. The proposed approach, which is based on wireless communication technologies, will minimize the cost of investment of traditional wired systems, which always need civil engineering for burying of cable underground and consequently are more expensive than if the connection of the different nodes is made over the air. The deployed solution will be aware of their surrounding's environmental conditions, a fact that will be approached for the system intelligence in order to learn, and later, apply dynamic rules. The knowledge of real time illumination needs, in terms of instant use of the street in which it is installed, will also feed our system, with the objective of providing tangible solutions to reduce energy consumption according to the contextual needs, an exact calculation of energy consumption and reliable mechanisms for preventive maintenance of facilities.

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Design and Implementation of Context Aware Applications With Wireless Sensor Network Support in Urban Train Transportation Environments

Aguirre

López-Iturri

Azpilicueta

et al. 2017

IEEE Sensors J.

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Measurement and modeling of a UHF‐RFID system in a metallic closed vehicle

Azpilicueta

Falcone

Astráin

et al. 2012

Micro & Optical Tech Letters

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In this work, the characteristics radiopropagation of a wireless system within an indoor vehicle is presented. An analysis of the physical radio channel propagation inside a van full of dielectric buckets is presented based on three‐dimensional ray launching in house code. Simulation as well as measurement results from a real in‐vehicle scenario confirm the topological dependence and impact on a RFID system is shown. © 2012 Wiley Periodicals, Inc. Microwave Opt Technol Lett 54:2126–2130, 2012; View this article online at wileyonlinelibrary.com. DOI 10.1002/mop.27010

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Analysis of Radio Wave Propagation for ISM 2.4 GHz Wireless Sensor Networks in Inhomogeneous Vegetation Environments

Azpilicueta

López-Iturri

Aguirre

et al. 2014

Sensors

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The use of wireless networks has experienced exponential growth due to the improvements in terms of battery life and low consumption of the devices. However, it is compulsory to conduct previous radio propagation analysis when deploying a wireless sensor network. These studies are necessary to perform an estimation of the range coverage, in order to optimize the distance between devices in an actual network deployment. In this work, the radio channel characterization for ISM 2.4 GHz Wireless Sensor Networks (WSNs) in an inhomogeneous vegetation environment has been analyzed. This analysis allows designing environment monitoring tools based on ZigBee and WiFi where WSN and smartphones cooperate, providing rich and customized monitoring information to users in a friendly manner. The impact of topology as well as morphology of the environment is assessed by means of an in-house developed 3D Ray Launching code, to emulate the realistic operation in the framework of the scenario. Experimental results gathered from a measurement campaign conducted by deploying a ZigBee Wireless Sensor Network, are analyzed and compared with simulations in this paper. The scenario where this network is intended to operate is a combination of buildings and diverse vegetation species. To gain insight in the effects of radio propagation, a simplified vegetation model has been developed, considering the material parameters and simplified geometry embedded in the simulation scenario. An initial location-based application has been implemented in a real scenario, to test the functionality within a context aware scenario. The use of deterministic tools can aid to know the impact of the topological influence in the deployment of the optimal Wireless Sensor Network in terms of capacity, coverage and energy consumption, making the use of these systems attractive for multiple applications in inhomogeneous vegetation environments.

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Fuzzy location and tracking on wireless networks

Astráin

Villadangos

Garitagoitia

et al. 2006

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