MONITORING AND EVALUATION OF WATER QUALITY IN RURAL ANDEAN AREAS OF PERU USING WIRELESS SENSORS WITH LORA

Wohler Gonzales Saenz; Luz Marina Acharte Lume; Javier Camilo Poma Palacios; Alejandro Filimón Quispe Coica; Agustí Pérez Foguet

doi:10.5935/jetia.v11i52.1611

MONITORING AND EVALUATION OF WATER QUALITY IN RURAL ANDEAN AREAS OF PERU USING WIRELESS SENSORS WITH LORA

Wohler Gonzales Saenz
, Luz Marina Acharte Lume
, Javier Camilo Poma Palacios
, Alejandro Filimón Quispe Coica
, Agustí Pérez Foguet

Universidad Nacional de Huancavelica

Research output: Contribution to journal › Article › peer-review

Abstract

The objective of this research was to implement wireless sensors for remote monitoring and evaluation of water quality in five reservoirs in rural Andean communities in the district of Huancavelica-Peru, given the scarcity of information on water quality and its poor monitoring. It is important to monitor water quality for its safe management according to the sustainable development goals of the 2030 agenda, against natural or anthropogenic contaminants. The remote monitoring evaluated the performance of wireless sensors and water quality (temperature, pH and turbidity) for 10 days. The wireless sensors were calibrated with Hanna Instruments brand equipment achieving an R² of 98.98%, 96.81% and 89.82% for temperature, pH and turbidity respectively. The average amount of data received was 456/462, 8.73 km maximum communication distance, received signal strength RSSI (-93 to-122 dBm), signal to noise ratio SNR (9 to 13 dB), water temperature (-2.90 to 14.4 ºC), pH (6.60 to 8.24) and turbidity (0.34 to 4.98 NTU). The wireless sensors are highly effective in remote monitoring; the quality of the monitored water complies with Peruvian and World Health Organization regulations.

Original language	English
Pages (from-to)	196-204
Number of pages	9
Journal	Journal of Engineering and Technology for Industrial Applications
Volume	11
Issue number	52
DOIs	https://doi.org/10.5935/jetia.v11i52.1611
State	Published - 1 Apr 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 4 Quality Education
SDG 6 Clean Water and Sanitation
SDG 17 Partnerships for the Goals

Keywords

Internet of things
Monitoring
Water quality
Wireless sensors

Access to Document

10.5935/jetia.v11i52.1611

Cite this

@article{404e8333a3b74646ab859f2a0feb7753,

title = "MONITORING AND EVALUATION OF WATER QUALITY IN RURAL ANDEAN AREAS OF PERU USING WIRELESS SENSORS WITH LORA",

abstract = "The objective of this research was to implement wireless sensors for remote monitoring and evaluation of water quality in five reservoirs in rural Andean communities in the district of Huancavelica-Peru, given the scarcity of information on water quality and its poor monitoring. It is important to monitor water quality for its safe management according to the sustainable development goals of the 2030 agenda, against natural or anthropogenic contaminants. The remote monitoring evaluated the performance of wireless sensors and water quality (temperature, pH and turbidity) for 10 days. The wireless sensors were calibrated with Hanna Instruments brand equipment achieving an R² of 98.98\%, 96.81\% and 89.82\% for temperature, pH and turbidity respectively. The average amount of data received was 456/462, 8.73 km maximum communication distance, received signal strength RSSI (-93 to-122 dBm), signal to noise ratio SNR (9 to 13 dB), water temperature (-2.90 to 14.4 ºC), pH (6.60 to 8.24) and turbidity (0.34 to 4.98 NTU). The wireless sensors are highly effective in remote monitoring; the quality of the monitored water complies with Peruvian and World Health Organization regulations.",

keywords = "Internet of things, Monitoring, Water quality, Wireless sensors",

author = "Saenz, \{Wohler Gonzales\} and \{Acharte Lume\}, \{Luz Marina\} and \{Poma Palacios\}, \{Javier Camilo\} and \{Quispe Coica\}, \{Alejandro Filim{\'o}n\} and Foguet, \{Agust{\'i} P{\'e}rez\}",

note = "Publisher Copyright: {\textcopyright} 2025 by authors and Galileo Institute of Technology and Education of the Amazon (ITEGAM).",

year = "2025",

month = apr,

day = "1",

doi = "10.5935/jetia.v11i52.1611",

language = "Ingl{\'e}s",

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pages = "196--204",

journal = "Journal of Engineering and Technology for Industrial Applications",

issn = "2447-0228",

publisher = "Galileo Institute of Technology and Education of the Amazon (ITEGAM)",

number = "52",

}

MONITORING AND EVALUATION OF WATER QUALITY IN RURAL ANDEAN AREAS OF PERU USING WIRELESS SENSORS WITH LORA. / Saenz, Wohler Gonzales ; Acharte Lume, Luz Marina ; Poma Palacios, Javier Camilo et al.
In: Journal of Engineering and Technology for Industrial Applications, Vol. 11, No. 52, 01.04.2025, p. 196-204.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - MONITORING AND EVALUATION OF WATER QUALITY IN RURAL ANDEAN AREAS OF PERU USING WIRELESS SENSORS WITH LORA

AU - Saenz, Wohler Gonzales

AU - Acharte Lume, Luz Marina

AU - Poma Palacios, Javier Camilo

AU - Quispe Coica, Alejandro Filimón

AU - Foguet, Agustí Pérez

PY - 2025/4/1

Y1 - 2025/4/1

N2 - The objective of this research was to implement wireless sensors for remote monitoring and evaluation of water quality in five reservoirs in rural Andean communities in the district of Huancavelica-Peru, given the scarcity of information on water quality and its poor monitoring. It is important to monitor water quality for its safe management according to the sustainable development goals of the 2030 agenda, against natural or anthropogenic contaminants. The remote monitoring evaluated the performance of wireless sensors and water quality (temperature, pH and turbidity) for 10 days. The wireless sensors were calibrated with Hanna Instruments brand equipment achieving an R² of 98.98%, 96.81% and 89.82% for temperature, pH and turbidity respectively. The average amount of data received was 456/462, 8.73 km maximum communication distance, received signal strength RSSI (-93 to-122 dBm), signal to noise ratio SNR (9 to 13 dB), water temperature (-2.90 to 14.4 ºC), pH (6.60 to 8.24) and turbidity (0.34 to 4.98 NTU). The wireless sensors are highly effective in remote monitoring; the quality of the monitored water complies with Peruvian and World Health Organization regulations.

AB - The objective of this research was to implement wireless sensors for remote monitoring and evaluation of water quality in five reservoirs in rural Andean communities in the district of Huancavelica-Peru, given the scarcity of information on water quality and its poor monitoring. It is important to monitor water quality for its safe management according to the sustainable development goals of the 2030 agenda, against natural or anthropogenic contaminants. The remote monitoring evaluated the performance of wireless sensors and water quality (temperature, pH and turbidity) for 10 days. The wireless sensors were calibrated with Hanna Instruments brand equipment achieving an R² of 98.98%, 96.81% and 89.82% for temperature, pH and turbidity respectively. The average amount of data received was 456/462, 8.73 km maximum communication distance, received signal strength RSSI (-93 to-122 dBm), signal to noise ratio SNR (9 to 13 dB), water temperature (-2.90 to 14.4 ºC), pH (6.60 to 8.24) and turbidity (0.34 to 4.98 NTU). The wireless sensors are highly effective in remote monitoring; the quality of the monitored water complies with Peruvian and World Health Organization regulations.

KW - Internet of things

KW - Monitoring

KW - Water quality

KW - Wireless sensors

UR - https://www.scopus.com/pages/publications/105005148407

U2 - 10.5935/jetia.v11i52.1611

DO - 10.5935/jetia.v11i52.1611

M3 - Artículo

AN - SCOPUS:105005148407

SN - 2447-0228

VL - 11

SP - 196

EP - 204

JO - Journal of Engineering and Technology for Industrial Applications

JF - Journal of Engineering and Technology for Industrial Applications

IS - 52

ER -

MONITORING AND EVALUATION OF WATER QUALITY IN RURAL ANDEAN AREAS OF PERU USING WIRELESS SENSORS WITH LORA

Abstract

UN SDGs

Keywords

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