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dc.contributor.authorCarandell Widmer, Matias
dc.contributor.authorToma, Daniel
dc.contributor.authorRío Fernandez, Joaquín del
dc.contributor.authorGanchev, Kaloyan
dc.contributor.authorPeudennier, Julien
dc.date.accessioned2019-01-14T13:50:34Z
dc.date.available2019-01-14T13:50:34Z
dc.date.issued2018
dc.identifier.citationCarandell Widmer, M. [et al.]. Evaluation of SigFox LPWAN technology for autonomous sensors in coastal applications. A: 8th International Workshop on Marine Technology : MARTECH 2018. "Instrumentation Viewpoint". Vilanova i la Geltrú: SARTI, 2018, p. 36-37.
dc.identifier.issn1886-4864
dc.identifier.urihttp://hdl.handle.net/2117/126696
dc.description.abstractA low-power wide-area network (LPWAN) is a wireless communication network designed to send low bit rates in a long-range communication. SigFox is a LPWAN technology that uses Ultra Narrow Band to communicate packages of 12 bytes at a very low byte rate (<100 bits/s) and up to 140 messages/day per device. It is a payable service that includes the Base Stations and the Backend Services and works at 868 MHz (ISM band). These characteristics are attractive for IoT applications as it allows to send small packages at long distances at very low power range. The TD1205P module features the SIGFOX Gateway and includes GNSS and Accelerometer sensors for tracking applications in 30x38x10.5 mm size. As a low power and compact solution that includes sensing, processing and transmitting units, it is suitable for Energy Harvesting Autonomous Sensor applications. UPC is designing a drifter with a kinetic energy harvester, the electronics to adequate the power, the batteries to storage it and a TD1205P module as a tracker. It is going to be deployed at coastal areas to provide information of the surface currents for a long period hence, the power auntonomy has to be assured through the harvesting system. The aim of this study is to determinate the consumption of this module in his different modes of operation. Two modules were set with different configuration and his power were compared, then in future studies, EH generation will be modelled in order to determine the autonomy of the buoy. The software is designed to minimize the consumption so it keeps the TD1205P sleeping during long periods, spending a few amount of energy. At some interval, the modules will wake up, fix the GPS position, take the measurements of battery voltage and temperature, send the data thought Sigfox coverage and they will go back to sleep. Two modes were configured, called mode 0 and mode 1. The difference between them is that the first do not save any data of the satellite constellation and the second does, so differences were appreciated at fixing GPS time and at sleeping consumption. At figure 2 consumption of both modes is plotted with a symbolic working interval of 120 seconds. Table 1 shows the data plotted, being mode 0 segments from 1 to 6 and mode 1 segments from a to f. In one cycle, the module gets up and starts fixing the GPS position a taking the sensor measurements (2 – b) and then it sends the data ( 3 – c). This is pretty much the same for both modes but, when the module goes to sleep (4 –d), mode 1 keeps some memory alive for saving GPS constellation information so consumption is 5 times higher. Nevertheless, when the cycle starts the GPS fixing time (5 – e) is strongly different, being 8 times more at mode 0 because it has to start from nothing. In addition, in both modes, it is easy to appreciate how SigFox technology sends each package of 12 bytes 3 times, at 3 pseouranom frequencies on the UNB modulation of the ISM band ( 3, 6, c and f ). To sum up, substantial consumptions were appreciated at different modes of work, some in the range of mA for short intervals and some at uA level for long ones. To determine the best option, a long-term study was simulated with intervals of 2 hours each output package.
dc.language.isoeng
dc.publisherSARTI
dc.rightsAttribution-NonCommercial-NoDerivs 3.0 Spain
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/es/
dc.subjectÀrees temàtiques de la UPC::Enginyeria de la telecomunicació::Telemàtica i xarxes d'ordinadors
dc.subject.lcshWireless communication systems
dc.subject.otherLow Power Wide Area Network (LPWAN)
dc.subject.otherSigfox
dc.subject.otherAutonomous Sensor (AS)
dc.subject.otherEnergy Harvesting (EH)
dc.titleEvaluation of SigFox LPWAN technology for autonomous sensors in coastal applications
dc.typeArticle
dc.subject.lemacComunicació sense fil, Sistemes de
dc.identifier.dlB.32814-2006
dc.description.peerreviewedPeer Reviewed
dc.rights.accessOpen Access
local.citation.contributor8th International Workshop on Marine Technology : MARTECH 2018
local.citation.pubplaceVilanova i la Geltrú
local.citation.publicationNameInstrumentation Viewpoint
local.citation.number20
local.citation.startingPage36
local.citation.endingPage37


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