RF performance evaluation of the nRF24L01+ based wireless water quality monitoring sensor node: Khartoum city propagation scenario

RF performance evaluation of the nRF24L01+ based wireless water quality monitoring sensor node: Khartoum city propagation scenario

Recently, and to cater to increased needs of Drinking Water Quality Monitoring (DWQM) and data management, there has been a growing interest in the marketplace as well as in the research community to develop advanced water quality monitoring systems utilizing modern information and communications te...

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Bibliographic Details
Published in:Journal of Electrical Systems and Information Technology Vol. 9; no. 1; pp. 1 - 17
Main Authors: Abdelrahim, Sami Omer Osman, Hassan, Mohamed Zakria Mohamed, Salih, Alzain Mohamed Suliman, Abdo-Alrahiem, Amjed Abubaker Mohamed, Abdelgadir Mohamed, Mayada
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 06-06-2022
SpringerOpen
Subjects:
Engineering
Free-space
IoT
Mechanical Engineering
nRF24L01+ transceiver
Propagation modeling
RF performance evaluation
WSN
Log-distance
WSN
RF performance evaluation
nRF24L01+ transceiver
Two-ray
Drinking water quality monitoring system (DWQMS)
Free-space
Propagation modeling
IoT
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Summary:Recently, and to cater to increased needs of Drinking Water Quality Monitoring (DWQM) and data management, there has been a growing interest in the marketplace as well as in the research community to develop advanced water quality monitoring systems utilizing modern information and communications technologies (ICT) such as wireless sensor networks (WSN) and Internet of Things (IoT). The application of the wireless-sensing paradigm is becoming a common trend in water quality monitoring systems. In fact, a growing body of the literature has focused on developing wireless sensing-enabled water quality monitoring systems. However, previous studies have not dealt with the radio performance evaluation of modern wireless water quality monitoring systems deployed in urban city scenarios. The present paper seeks to address the radio frequency (RF) performance evaluation for a developed modern wireless Drinking Water Quality Monitoring System (DWQMS) based on the commercial nRF24L01+ RF module. This research study is based on three city propagation scenarios as case studies. The obtained experimental data suggested that the nRF24L01+ module can provide relatively acceptable RF performance under less favorable and hostile city propagation environments.
ISSN:2314-7172
2314-7172
DOI:10.1186/s43067-022-00052-3