GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study

GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study

Nowadays with the evolution of Internet of Things (IoT), building a network of sensors for measuring data from remote locations requires a good plan considering a lot of parameters including power consumption. A Lot of communication technologies such as WIFI, Bluetooth, Zigbee, Lora, Sigfox, and GSM...

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Main Authors: Joseph Habiyaremye, Marco Zennaro, Chomora Mikeka, Emmanuel Masabo, Santhi Kumaran, Kayalvizhi Jayavel
Format: Article
Language:English
Published: MDPI AG 2020-11-01
Series:Information
Subjects:
WSN
GPRS sensor node
RSSI
GEKKO APM
LabVIEW
Online Access:https://www.mdpi.com/2078-2489/11/11/524
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spelling doaj-fa4d9209f3bb401a9afba17a1351b5f72020-11-25T03:57:39ZengMDPI AGInformation2078-24892020-11-011152452410.3390/info11110524GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental StudyJoseph Habiyaremye0Marco Zennaro1Chomora Mikeka2Emmanuel Masabo3Santhi Kumaran4Kayalvizhi Jayavel5African Center of Excellence in Internet of Things, College Of Science and Technology, University of Rwanda, Kigali 4285, RwandaAbdus Salam International Centre for Theoretical Physics (ICTP), Strada Costiera, 11, I-34151 Trieste, ItalyDepartment of Physics, University of Malawi, P.O. Box 280, Zomba, MalawiAfrican Center of Excellence in Internet of Things, College Of Science and Technology, University of Rwanda, Kigali 4285, RwandaDepartment of Computer Engineering, Copperbelt University, P.O. Box 21692, Kitwe, ZambiaDepartment of Information Technology, School of Computing, SRM Institute of Science and Technology, Chennai 603203, IndiaNowadays with the evolution of Internet of Things (IoT), building a network of sensors for measuring data from remote locations requires a good plan considering a lot of parameters including power consumption. A Lot of communication technologies such as WIFI, Bluetooth, Zigbee, Lora, Sigfox, and GSM/GPRS are being used based on the application and this application will have some requirements such as communication range, power consumption, and detail about data to be transmitted. In some places, especially the hilly area like Rwanda and where GSM connectivity is already covered, GSM/GPRS may be the best choice for IoT applications. Energy consumption is a big challenge in sensor nodes which are specially supplied by batteries as the lifetime of the node and network depends on the state of charge of the battery. In this paper, we are focusing on static sensor nodes communicating using the GPRS protocol. We acquired current consumption for the sensor node in different locations with their corresponding received signal quality and we tried to experimentally find a mathematical data-driven model for estimating the GSM/GPRS sensor node battery lifetime using the received signal strength indicator (RSSI). This research outcome will help to predict GPRS sensor node life, replacement intervals, and dynamic handover which will in turn provide uninterrupted data service. This model can be deployed in various remote WSN and IoT based applications like forests, volcano, etc. Our research has shown convincing results like when there is a reduction of −30 dBm in RSSI, the current consumption of the radio unit of the node will double.https://www.mdpi.com/2078-2489/11/11/524WSNGPRS sensor nodeRSSIGEKKO APMLabVIEW
collection DOAJ
language English
format Article
sources DOAJ
author Joseph Habiyaremye
Marco Zennaro
Chomora Mikeka
Emmanuel Masabo
Santhi Kumaran
Kayalvizhi Jayavel
spellingShingle Joseph Habiyaremye
Marco Zennaro
Chomora Mikeka
Emmanuel Masabo
Santhi Kumaran
Kayalvizhi Jayavel
GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study
Information
WSN
GPRS sensor node
RSSI
GEKKO APM
LabVIEW
author_facet Joseph Habiyaremye
Marco Zennaro
Chomora Mikeka
Emmanuel Masabo
Santhi Kumaran
Kayalvizhi Jayavel
author_sort Joseph Habiyaremye
title GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study
title_short GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study
title_full GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study
title_fullStr GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study
title_full_unstemmed GPRS Sensor Node Battery Life Span Prediction Based on Received Signal Quality: Experimental Study
title_sort gprs sensor node battery life span prediction based on received signal quality: experimental study
publisher MDPI AG
series Information
issn 2078-2489
publishDate 2020-11-01
description Nowadays with the evolution of Internet of Things (IoT), building a network of sensors for measuring data from remote locations requires a good plan considering a lot of parameters including power consumption. A Lot of communication technologies such as WIFI, Bluetooth, Zigbee, Lora, Sigfox, and GSM/GPRS are being used based on the application and this application will have some requirements such as communication range, power consumption, and detail about data to be transmitted. In some places, especially the hilly area like Rwanda and where GSM connectivity is already covered, GSM/GPRS may be the best choice for IoT applications. Energy consumption is a big challenge in sensor nodes which are specially supplied by batteries as the lifetime of the node and network depends on the state of charge of the battery. In this paper, we are focusing on static sensor nodes communicating using the GPRS protocol. We acquired current consumption for the sensor node in different locations with their corresponding received signal quality and we tried to experimentally find a mathematical data-driven model for estimating the GSM/GPRS sensor node battery lifetime using the received signal strength indicator (RSSI). This research outcome will help to predict GPRS sensor node life, replacement intervals, and dynamic handover which will in turn provide uninterrupted data service. This model can be deployed in various remote WSN and IoT based applications like forests, volcano, etc. Our research has shown convincing results like when there is a reduction of −30 dBm in RSSI, the current consumption of the radio unit of the node will double.
topic WSN
GPRS sensor node
RSSI
GEKKO APM
LabVIEW
url https://www.mdpi.com/2078-2489/11/11/524
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AT chomoramikeka gprssensornodebatterylifespanpredictionbasedonreceivedsignalqualityexperimentalstudy
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