Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms

Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms

This paper presents a payload-based security model for authenticating constrained and heterogeneous constrained devices in a smart-farm application. The domain ideally operates with optional internet and no constant power supply, using battery-powered microcontrollers for the monitoring and control...

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Autores principales: Steph Rudd, Hamish Cunningham
Formato: article
Lenguaje:EN
Publicado: FRUCT 2021
Materias:
iot
smart
farm
energy
privacy
security
cryptography
tls
decentralised
networking
sensors
Telecommunication
TK5101-6720
Acceso en línea:https://doaj.org/article/5a3fb83ee4d44ddba73c11788f20dd16
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spelling oai:doaj.org-article:5a3fb83ee4d44ddba73c11788f20dd162021-11-20T15:59:33ZLow-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms2305-72542343-073710.23919/FRUCT53335.2021.9599987https://doaj.org/article/5a3fb83ee4d44ddba73c11788f20dd162021-10-01T00:00:00Zhttps://www.fruct.org/publications/fruct30/files/Rud.pdfhttps://doaj.org/toc/2305-7254https://doaj.org/toc/2343-0737This paper presents a payload-based security model for authenticating constrained and heterogeneous constrained devices in a smart-farm application. The domain ideally operates with optional internet and no constant power supply, using battery-powered microcontrollers for the monitoring and control of aquaponics systems. The motivation was to reduce energy consumption for extended battery life, whilst enabling a robust, decentralised security design. Results demonstrated an annual saving of up to 96% device battery life when compared to recommended TLS implementation, whilst maintaining equally high security standards.Steph RuddHamish CunninghamFRUCTarticleiotsmartfarmenergyprivacysecuritycryptographytlsdecentralisednetworkingsensorsTelecommunicationTK5101-6720ENProceedings of the XXth Conference of Open Innovations Association FRUCT, Vol 30, Iss 1, Pp 230-238 (2021)
institution DOAJ
collection DOAJ
language EN
topic iot
smart
farm
energy
privacy
security
cryptography
tls
decentralised
networking
sensors
Telecommunication
TK5101-6720
spellingShingle iot
smart
farm
energy
privacy
security
cryptography
tls
decentralised
networking
sensors
Telecommunication
TK5101-6720
Steph Rudd
Hamish Cunningham
Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms
description This paper presents a payload-based security model for authenticating constrained and heterogeneous constrained devices in a smart-farm application. The domain ideally operates with optional internet and no constant power supply, using battery-powered microcontrollers for the monitoring and control of aquaponics systems. The motivation was to reduce energy consumption for extended battery life, whilst enabling a robust, decentralised security design. Results demonstrated an annual saving of up to 96% device battery life when compared to recommended TLS implementation, whilst maintaining equally high security standards.
format article
author Steph Rudd
Hamish Cunningham
author_facet Steph Rudd
Hamish Cunningham
author_sort Steph Rudd
title Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms
title_short Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms
title_full Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms
title_fullStr Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms
title_full_unstemmed Low-Energy Authentication with Selective Privacy for Heterogeneous IoT Devices in Smart-Farms
title_sort low-energy authentication with selective privacy for heterogeneous iot devices in smart-farms
publisher FRUCT
publishDate 2021
url https://doaj.org/article/5a3fb83ee4d44ddba73c11788f20dd16
work_keys_str_mv AT stephrudd lowenergyauthenticationwithselectiveprivacyforheterogeneousiotdevicesinsmartfarms
AT hamishcunningham lowenergyauthenticationwithselectiveprivacyforheterogeneousiotdevicesinsmartfarms
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