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Auteurs principaux: Anthony, Belcher, A., Esteva Miguel, Anthea, Lam, Rizki, Ramadhani, Achmad, Rayhan, Wangkun, Xu, Daphne, Tuncer
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2407.09117
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author Anthony, Belcher
A., Esteva Miguel
Anthea, Lam
Rizki, Ramadhani
Achmad, Rayhan
Wangkun, Xu
Daphne, Tuncer
author_facet Anthony, Belcher
A., Esteva Miguel
Anthea, Lam
Rizki, Ramadhani
Achmad, Rayhan
Wangkun, Xu
Daphne, Tuncer
contents The implementation of early warning mechanisms that can be used to detect forest fires in rural areas is essential to mitigate their deleterious effects, in particular by notifying local fire authorities to mount timely emergency responses. 6G-enabled Internet of Things (IoT) infrastructures are promising technological developments in that direction. However, in practice, the ability to detect forest fires in an effective way using distributed sensor nodes is challenging to achieve. In this short paper, we exemplify this challenge based on a case study that uses real data collected from the Low-Cost Internet of Things Sensor of Haze Air Quality Disasters in Communities in Thailand and Southeast Asia (SEA-HAZEMON) platform. The work is a preliminary step towards assessing the efficacy of a real-life fire detection system based on distributed sensor nodes. More generally, the objective is to develop a set of practical guidelines for the design of a 6G-enabled IoT-based fire detection mechanism.
format Preprint
id arxiv_https___arxiv_org_abs_2407_09117
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Assessing the Efficacy of IoT-based Forest Fire Detection: a Practical Use Case
Anthony, Belcher
A., Esteva Miguel
Anthea, Lam
Rizki, Ramadhani
Achmad, Rayhan
Wangkun, Xu
Daphne, Tuncer
Networking and Internet Architecture
The implementation of early warning mechanisms that can be used to detect forest fires in rural areas is essential to mitigate their deleterious effects, in particular by notifying local fire authorities to mount timely emergency responses. 6G-enabled Internet of Things (IoT) infrastructures are promising technological developments in that direction. However, in practice, the ability to detect forest fires in an effective way using distributed sensor nodes is challenging to achieve. In this short paper, we exemplify this challenge based on a case study that uses real data collected from the Low-Cost Internet of Things Sensor of Haze Air Quality Disasters in Communities in Thailand and Southeast Asia (SEA-HAZEMON) platform. The work is a preliminary step towards assessing the efficacy of a real-life fire detection system based on distributed sensor nodes. More generally, the objective is to develop a set of practical guidelines for the design of a 6G-enabled IoT-based fire detection mechanism.
title Assessing the Efficacy of IoT-based Forest Fire Detection: a Practical Use Case
topic Networking and Internet Architecture
url https://arxiv.org/abs/2407.09117