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Lightweight Cryptographic Algorithms for Securing IoT Low-Cost Devices / Oussama EL MAHBOUBI
Titre : Lightweight Cryptographic Algorithms for Securing IoT Low-Cost Devices Type de document : projet fin études Auteurs : Oussama EL MAHBOUBI, Auteur Langues : Français (fre) Catégories : Systèmes Embarqués et Mobile Mots-clés : IoT, Lightweight Cryptography, Block Cipher, Security, AES, DES, 3DES,
Speck, XXTEA, Key expansion, Encryption, Decryption, Constrained devices.Index. décimale : 2137/19 Résumé : The communication of data has been vastly increased because of the implementation of the
Internet of Things (IoT)—and security is an absolute necessity for the Internet communication.
The cryptographic solutions ensures that data access is restricted to legitimate users. In this
thesis we present a detailed comparison of different recent approaches of the most trusted and
researched lightweight cryptographic solutions for Internet of Things (IoT), such as Advanced
Encryption Standard (AES), Data Encryption Standard (DES), Triple DES, Speck and XXTEA
using ESP32 device. Our survey shows that AES and Speck perform good results, but a lot of
work still remains to be done.
Lightweight Cryptographic Algorithms for Securing IoT Low-Cost Devices [projet fin études] / Oussama EL MAHBOUBI, Auteur . - [s.d.].
Langues : Français (fre)
Catégories : Systèmes Embarqués et Mobile Mots-clés : IoT, Lightweight Cryptography, Block Cipher, Security, AES, DES, 3DES,
Speck, XXTEA, Key expansion, Encryption, Decryption, Constrained devices.Index. décimale : 2137/19 Résumé : The communication of data has been vastly increased because of the implementation of the
Internet of Things (IoT)—and security is an absolute necessity for the Internet communication.
The cryptographic solutions ensures that data access is restricted to legitimate users. In this
thesis we present a detailed comparison of different recent approaches of the most trusted and
researched lightweight cryptographic solutions for Internet of Things (IoT), such as Advanced
Encryption Standard (AES), Data Encryption Standard (DES), Triple DES, Speck and XXTEA
using ESP32 device. Our survey shows that AES and Speck perform good results, but a lot of
work still remains to be done.
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Code barre Cote Support Localisation Section Disponibilité 2137/19 2137/19 OUS Texte imprimé unité des PFE PFE/2019 Disponible