DTN Trustworthiness for Permafrost Telemetry IoT Network

DTN Trustworthiness for Permafrost Telemetry IoT Network

The SHETLAND-NET research project aims to build an Internet of Things (IoT) telemetry service in Antarctica to automatize the data collection of permafrost research studies on interconnecting remote wireless sensor networks (WSNs) through near vertical incidence skywave (NVIS) long fat networks (LFN...

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Autores principales: Adrià Mallorquí, Agustín Zaballos, Alan Briones
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
transport protocols
trustworthiness
Antarctica
IoT
NVIS
remote WSN
Science
Q
Acceso en línea:https://doaj.org/article/f02d7dbb202f497fadf6fc9a345ff8d1
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spelling oai:doaj.org-article:f02d7dbb202f497fadf6fc9a345ff8d12021-11-25T18:53:39ZDTN Trustworthiness for Permafrost Telemetry IoT Network10.3390/rs132244932072-4292https://doaj.org/article/f02d7dbb202f497fadf6fc9a345ff8d12021-11-01T00:00:00Zhttps://www.mdpi.com/2072-4292/13/22/4493https://doaj.org/toc/2072-4292The SHETLAND-NET research project aims to build an Internet of Things (IoT) telemetry service in Antarctica to automatize the data collection of permafrost research studies on interconnecting remote wireless sensor networks (WSNs) through near vertical incidence skywave (NVIS) long fat networks (LFN). The proposed architecture presents some properties from challenging networks that require the use of delay tolerant networking (DTN) opportunistic techniques that send the collected data during the night as a bulk data transfer whenever a link comes available. This process might result in network congestion and packet loss. This is a complex architecture that demands a thorough assessment of the solution’s viability and an analysis of the transport protocols in order to find the option which best suits the use case to achieve superior trustworthiness in network congestion situations. A heterogeneous layer-based model is used to measure and improve the trustworthiness of the service. The scenario and different transport protocols are modeled to be compared, and the system’s trustworthiness is assessed through simulations.Adrià MallorquíAgustín ZaballosAlan BrionesMDPI AGarticletransport protocolstrustworthinessAntarcticaIoTNVISremote WSNScienceQENRemote Sensing, Vol 13, Iss 4493, p 4493 (2021)
institution DOAJ
collection DOAJ
language EN
topic transport protocols
trustworthiness
Antarctica
IoT
NVIS
remote WSN
Science
Q
spellingShingle transport protocols
trustworthiness
Antarctica
IoT
NVIS
remote WSN
Science
Q
Adrià Mallorquí
Agustín Zaballos
Alan Briones
DTN Trustworthiness for Permafrost Telemetry IoT Network
description The SHETLAND-NET research project aims to build an Internet of Things (IoT) telemetry service in Antarctica to automatize the data collection of permafrost research studies on interconnecting remote wireless sensor networks (WSNs) through near vertical incidence skywave (NVIS) long fat networks (LFN). The proposed architecture presents some properties from challenging networks that require the use of delay tolerant networking (DTN) opportunistic techniques that send the collected data during the night as a bulk data transfer whenever a link comes available. This process might result in network congestion and packet loss. This is a complex architecture that demands a thorough assessment of the solution’s viability and an analysis of the transport protocols in order to find the option which best suits the use case to achieve superior trustworthiness in network congestion situations. A heterogeneous layer-based model is used to measure and improve the trustworthiness of the service. The scenario and different transport protocols are modeled to be compared, and the system’s trustworthiness is assessed through simulations.
format article
author Adrià Mallorquí
Agustín Zaballos
Alan Briones
author_facet Adrià Mallorquí
Agustín Zaballos
Alan Briones
author_sort Adrià Mallorquí
title DTN Trustworthiness for Permafrost Telemetry IoT Network
title_short DTN Trustworthiness for Permafrost Telemetry IoT Network
title_full DTN Trustworthiness for Permafrost Telemetry IoT Network
title_fullStr DTN Trustworthiness for Permafrost Telemetry IoT Network
title_full_unstemmed DTN Trustworthiness for Permafrost Telemetry IoT Network
title_sort dtn trustworthiness for permafrost telemetry iot network
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/f02d7dbb202f497fadf6fc9a345ff8d1
work_keys_str_mv AT adriamallorqui dtntrustworthinessforpermafrosttelemetryiotnetwork
AT agustinzaballos dtntrustworthinessforpermafrosttelemetryiotnetwork
AT alanbriones dtntrustworthinessforpermafrosttelemetryiotnetwork
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