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Efficient Wireless Sensor Network for Radiation Detection in Nuclear Sites

Sherief Hashima Imbaby Mahmoud
International Journal of Electronics and Telecommunications | 2021 | vol. 67 | No 2 | 175-180 | DOI: 10.24425/ijet.2021.135961
Keywords Wireless Sensor Networks (WSNs) Radiation detection Multi-armed bandit (MAB) Thomson sampling Network lifetime
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Abstract

Due to the severe damages of nuclear accidents, there is still an urgent need to develop efficient radiation detection wireless sensor networks (RDWSNs) that precisely monitor irregular radioactivity. It should take actions that mitigate the severe costs of accidental radiation leakage, especially around nuclear sites that are the primary sources of electric power and many health and industrial applications. Recently, leveraging machine learning (ML) algorithms to RDWSNs is a promising solution due to its several pros, such as online learning and self-decision making. This paper addresses novel and efficient ML-based RDWSNs that utilize millimeter waves (mmWaves) to meet future network requirements. Specifically, we leverage an online learning multi-armed bandit (MAB) algorithm called Thomson sampling (TS) to a 5G enabled RDWSN to efficiently forward the measured radiation levels of the distributed radiation sensors within the monitoring area. The utilized sensor nodes are lightweight smart radiation sensors that are mounted on mobile devices and measure radiation levels using software applications installed in these mobiles. Moreover, a battery aware TS (BATS) algorithm is proposed to efficiently forward the sensed radiation levels to the fusion decision center. BA-TS reflects the remaining battery of each mobile device to prolong the network lifetime. Simulation results ensure the proposed BA-TS algorithm’s efficiency regards throughput and network lifetime over TS and exhaustive search method.
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Authors and Affiliations

Sherief Hashima
1
Imbaby Mahmoud
2
  1. Engineering Dept., Nuclear Research Center, Egyptian Atomic Energy Authority, Cairo 13759, Egypt
  2. Radiation Engineering Dept., National Center of Radiation Research and Technology (NCRRT) Egyptian Atomic Energy Authority, Cairo, Egypt

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