Lightweight Security Scheme for Internet of Things

被引:0
作者
Ahmed Aziz
Karan Singh
机构
[1] Jawaharlal Nehru University,School of Computer and System Science
[2] Benha University,undefined
来源
Wireless Personal Communications | 2019年 / 104卷
关键词
Wireless sensor networks; Internet of Things; Compressive sensing; Security;
D O I
暂无
中图分类号
学科分类号
摘要
The compressive sensing method presents itself as a promising technique in many fields specially for the Internet of Things and Wireless sensor networks applications. That is because, the compressive sensing has the major advantage of performing lightweight encryption and compression simultaneously. It leads to secure the network in addition to prolong the network life time. However, chosen plaintext attacks and key distribution are still major challenges facing the compressive sensing method. This paper focuses on the compressive sensing method according to security issue, and propose an efficient lightweight security scheme that addressee the previous challenges. Moreover, we use experimental data collected from a real sensors located in Intel Berkeley Research Lab.
引用
收藏
页码:577 / 593
页数:16
相关论文
共 50 条
[21]   On Lightweight Method for Intrusions Detection in the Internet of Things [J].
Shakhov, Vladimir ;
Jan, Sana Ullah ;
Ahmed, Saeed ;
Koo, Insoo .
2019 IEEE INTERNATIONAL BLACK SEA CONFERENCE ON COMMUNICATIONS AND NETWORKING (BLACKSEACOM), 2019,
[22]   FLAT: Federated lightweight authentication for the Internet of Things [J].
Santos, Maria L. B. A. ;
Carneiro, Jessica C. ;
Franco, Antonio M. R. ;
Teixeira, Fernando A. ;
Henriques, Marco A. A. ;
Oliveira, Leonardo B. .
AD HOC NETWORKS, 2020, 107
[23]   A Lightweight Authentication Scheme for E-health applications in the context of Internet of Things [J].
Khemissa, Hamza ;
Tandjaoui, Djamel .
2015 9TH INTERNATIONAL CONFERENCE ON NEXT GENERATION MOBILE APPLICATIONS, SERVICES AND TECHNOLOGIES (NGMAST 2015), 2015, :90-95
[24]   An efficient lightweight authentication scheme for human-centered industrial Internet of Things [J].
Singh, Jaya ;
Gimekar, Ashish ;
Venkatesan, Subramanian .
INTERNATIONAL JOURNAL OF COMMUNICATION SYSTEMS, 2023, 36 (12)
[25]   SLAK: secure lightweight scheme for authentication and key-agreement in internet of things [J].
Nahnah, Oussama ;
Cherbal, Sarra .
INTERNATIONAL JOURNAL OF INFORMATION AND COMPUTER SECURITY, 2024, 23 (02)
[26]   Internet of Things Security [J].
Chahid, Yassine ;
Benabdellah, Mohamed ;
Azizi, Abdelmalek .
2017 INTERNATIONAL CONFERENCE ON WIRELESS TECHNOLOGIES, EMBEDDED AND INTELLIGENT SYSTEMS (WITS), 2017,
[27]   A Lightweight Secure and Resilient Transmission Scheme for the Internet of Things in the Presence of a Hostile Jammer [J].
Letafati, Mehdi ;
Kuhestani, Ali ;
Wong, Kai-Kit ;
Piran, Md Jalil .
IEEE INTERNET OF THINGS JOURNAL, 2021, 8 (06) :4373-4388
[28]   Timing Analysis of the Lightweight AAβ Encryption Scheme on Embedded Linux for Internet of Things [J].
Adnan, Syed Farid Syed ;
Isa, Mohd Anuar Mat ;
Hashim, Habibah .
2016 IEEE SYMPOSIUM ON COMPUTER APPLICATIONS & INDUSTRIAL ELECTRONICS (ISCAIE), 2016, :113-116
[29]   Perception layer security in Internet of Things [J].
Khattak, Hasan Ali ;
Shah, Munam Ali ;
Khan, Sangeen ;
Ali, Ihsan ;
Imran, Muhammad .
FUTURE GENERATION COMPUTER SYSTEMS-THE INTERNATIONAL JOURNAL OF ESCIENCE, 2019, 100 (144-164) :144-164
[30]   Security of the Internet of Things: perspectives and challenges [J].
Jing, Qi ;
Vasilakos, Athanasios V. ;
Wan, Jiafu ;
Lu, Jingwei ;
Qiu, Dechao .
WIRELESS NETWORKS, 2014, 20 (08) :2481-2501
12345