Remote Attestation of IoT Devices using Physically Unclonable Functions: Recent Advancements and Open Research Challenges

被引:0
|
作者
Marastoni, Niccolo [1 ]
Ceccato, Mariano [1 ]
机构
[1] Univ Verona, Verona, Italy
来源
PROCEEDINGS OF THE 5TH WORKSHOP ON CPS & IOT SECURITY AND PRIVACY, CPSIOTSEC 2023 | 2023年
关键词
IoT; security; remote attestation; PUF; SOK; SOFTWARE-BASED ATTESTATION; AUTHENTICATION; PROTOCOL; THINGS; PUF;
D O I
10.1145/3605758.3623502
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
In the past few years, the diffusion of IoT devices used in everyday life has skyrocketed. From wearable devices to smart home appliances, these gadgets are increasingly exposed to the Internet or to open networks. This means that it is necessary to find security solutions that can guarantee the safety of these devices, while at the same time saving on energy consumption and implementation space. In this paper we explore recent works that use remote attestation as a possible solution to the security of IoT devices while also focusing on the use of Physically Unclonable Functions (PUFs). We provide a thorough analysis of the selected papers, providing insights on possible future research directions.
引用
收藏
页码:25 / 36
页数:12
相关论文
共 9 条
  • [1] POSTER: Practical Embedded Remote Attestation Using Physically Unclonable Functions
    Kocabas, Unal
    Sadeghi, Ahmad-Reza
    Schulz, Steffen
    Wachsmann, Christian
    PROCEEDINGS OF THE 18TH ACM CONFERENCE ON COMPUTER & COMMUNICATIONS SECURITY (CCS 11), 2011, : 797 - 799
  • [2] Authenticating IoT Devices With Physically Unclonable Functions Models
    Barbareschi, Mario
    Bagnasco, Pierpaolo
    Mazzeo, Antonino
    2015 10TH INTERNATIONAL CONFERENCE ON P2P, PARALLEL, GRID, CLOUD AND INTERNET COMPUTING (3PGCIC), 2015, : 563 - 567
  • [3] Data Provenance for IoT using Wireless Channel Characteristics and Physically Unclonable Functions
    Aman, Muhammad Naveed
    Basheer, Mohammed Haroon
    Sikdar, Biplab
    ICC 2019 - 2019 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC), 2019,
  • [4] Secure and lightweight key agreement protocol for remote surgery over tactile internet using physically unclonable functions
    Lee, Tian-Fu
    Huang, Wei-Jie
    Chang, I. -Pin
    PEER-TO-PEER NETWORKING AND APPLICATIONS, 2024, 17 (06) : 4247 - 4263
  • [5] A lightweight remote attestation using PUFs and hash-based signatures for low-end IoT devices
    Roman, Roberto
    Arjona, Rosario
    Baturone, Iluminada
    FUTURE GENERATION COMPUTER SYSTEMS-THE INTERNATIONAL JOURNAL OF ESCIENCE, 2023, 148 : 425 - 435
  • [6] Service Management for IoT: Requirements, Taxonomy, Recent Advances and Open Research Challenges
    Ahmed, Abdelmuttlib Ibrahim Abdalla
    Gani, Abdullah
    Ab Hamid, Siti Hafizah
    Abdelmaboud, Abdelzahir
    Syed, Hassan Jamil
    Mohamed, Riyaz Ahamed Ariyaluran Habeeb
    Ali, Ihsan
    IEEE ACCESS, 2019, 7 : 155472 - 155488
  • [7] Post-quantum Secure Communication with IoT Devices Using Kyber and SRAM Behavioral and Physical Unclonable Functions (Extended Abstract)
    Roman, Roberto
    Arjona, Rosario
    Baturone, Iluminada
    ATTACKS AND DEFENSES FOR THE INTERNET OF THINGS, ADIOT, 2022, 13745 : 72 - 83
  • [8] A quantum-safe authentication scheme for IoT devices using homomorphic encryption and weak physical unclonable functions with no helper data
    Roman, Roberto
    Arjona, Rosario
    Baturone, Iluminada
    INTERNET OF THINGS, 2024, 28
  • [9] A Blockchain Footprint for Authentication of IoT-Enabled Smart Devices in Smart Cities: State-of-the-Art Advancements, Challenges and Future Research Directions
    Khalil, Usman
    Mueen-Uddin
    Malik, Owais Ahmed
    Hussain, Saddam
    IEEE ACCESS, 2022, 10 : 76805 - 76823
1