Please use this identifier to cite or link to this item: http://hdl.handle.net/10609/77069
Title: Internet of things area coverage analyzer (ITHACA) for complex topographical scenarios
Author: Parada Medina, Raúl
Cárdenes Tacoronte, Daniel
Monzo Sánchez, Carlos
Melià Seguí, Joan Antoni
Keywords: low power wide area networks
internet of things
machine to machine
coverage
prototype
field trials
global system for mobile communications
Sigfox
Issue Date: Oct-2017
Publisher: Symmetry
Citation: Parada, R., Cárdenes-Tacoronte, D., Monzo, Melià-Seguí. J. (2017). "Internet of things area coverage analyzer (ITHACA) for complex topographical scenarios". Symmetry, 9, 237. ISSN 2073-8994. DOI: 10.3390/sym9100237
Also see: http://www.mdpi.com/2073-8994/9/10/237/htm
Abstract: The number of connected devices is increasing worldwide. Not only in contexts like the Smart City, but also in rural areas, to provide advanced features like smart farming or smart logistics. Thus, wireless network technologies to efficiently allocate Internet of Things (IoT) and Machine to Machine (M2M) communications are necessary. Traditional cellular networks like Global System for Mobile communications (GSM) are widely used worldwide for IoT environments. Nevertheless, Low Power Wide Area Networks (LP-WAN) are becoming widespread as infrastructure for present and future IoT and M2M applications. Based also on a subscription service, the LP-WAN technology SIGFOXTM may compete with cellular networks in the M2M and IoT communications market, for instance in those projects where deploying the whole communications infrastructure is too complex or expensive. For decision makers to decide the most suitable technology for each specific application, signal coverage is within the key features. Unfortunately, besides simulated coverage maps, decision-makers do not have real coverage maps for SIGFOXTM, as they can be found for cellular networks. Thereby, we propose Internet of THings Area Coverage Analyzer (ITHACA), a signal analyzer prototype to provide automated signal coverage maps and analytics for LP-WAN. Experiments performed in the Gran Canaria Island, Spain (with both urban and complex topographic rural environments), returned a real SIGFOXTM service availability above 97% and above 11% more coverage with respect to the company-provided simulated maps. We expect that ITHACA may help decision makers to deploy the most suitable technologies for future IoT and M2M projects.
Language: English
URI: http://hdl.handle.net/10609/77069
ISSN: 2073-8994MIAR
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