Bibliographic citations
Chávez, C., (2021). Estudio del rendimiento de las transmisiones inalámbricas de redes DigiMesh (916MHz)y ZigBee (2.4 GHz) para monitoreo costero de temperatura en la maricultura de concha de abanico de la MYPE Acuícola Mulluwasi en la playa Atenas, en Ica [Universidad Tecnológica del Perú]. https://hdl.handle.net/20.500.12867/5040
Chávez, C., Estudio del rendimiento de las transmisiones inalámbricas de redes DigiMesh (916MHz)y ZigBee (2.4 GHz) para monitoreo costero de temperatura en la maricultura de concha de abanico de la MYPE Acuícola Mulluwasi en la playa Atenas, en Ica []. PE: Universidad Tecnológica del Perú; 2021. https://hdl.handle.net/20.500.12867/5040
@misc{renati/1704208,
title = "Estudio del rendimiento de las transmisiones inalámbricas de redes DigiMesh (916MHz)y ZigBee (2.4 GHz) para monitoreo costero de temperatura en la maricultura de concha de abanico de la MYPE Acuícola Mulluwasi en la playa Atenas, en Ica",
author = "Chávez Guillermo, Cristhian Bernardo",
publisher = "Universidad Tecnológica del Perú",
year = "2021"
}
The thesis aims to study the performance of the wireless transmissions of DigiMesh (916 MHz) and ZigBee (2.4 GHz) networks for applied to monitoring coastal of temperature in the mariculture of fan shell of the MYPE Acuicola Mulluwasi on the Atenas beach, in Ica. The methodology was of a quantitative approach, explanatory scope and experimental design. To identify the situation of the scenario, a survey was applied to a sample of 158 workers from a population of 258 workers; to evaluate the performance, thedata was collected through the XCTU that allows the measurement of the Noise floor metric, and LabVIEW in the measurement of the RSSI, SNR, PRR and PLR metrics. The results obtained show that the DigiMesh and ZigBee networks present a good performance oftheir wireless transmissions in coverage of 700 meters distance from the coast under specific conditions of transmission parameters, noise floor ≤ -100 dBm and weather and maritime conditions for winter season in temperature of 18 to 20°C, humidity of 71 to 74%, precipitation of 0 mm, atmospheric pressure of 755 to 780 mm, wind speeds of 18 to 27 Km/h and size of waves not greater than 0.5 meters (marejadilla) . Likewise, the propagation model adopted allowed to obtain predictive results that follow the same behavior as those measured in the field.
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