Blockchain mechanism with Byzantine fault tolerance consensus for Internet of Drones services

被引:10
作者
Singh, Jaya [1 ]
Venkatesan, S. [1 ]
机构
[1] Indian Inst Informat Technol, Dept Informat Technol, Allahabad, Uttar Pradesh, India
关键词
SECURITY; DELIVERY;
D O I
10.1002/ett.4235
中图分类号
TN [电子技术、通信技术];
学科分类号
0809 ;
摘要
The increasing number of drones brings various issues like security risks, increasing air traffic, misuse or crash of drones, and so on. Blockchain can provide the solution to mitigate these problems of drones. Hence, in this article, we have presented the Blockchain of Drones (BCoD), a conceptual approach of collaboration between blockchain and IoD to make drones advantageous through blockchain properties. But the main challenge for adopting blockchain is scalability as consensus in blockchain relies on the message communications by replicated nodes to attain flexibility against faulty nodes. Considering this, we present an advanced byzantine fault tolerance (ABFT) consensus for drone-based applications. This protocol provides scalability with minimum cost and resources for achieving general agreement. It uses only f + 1 resources in normal case and 2f + 1 resources in faulty case with O(n) communication complexity. The systematic analysis and evaluation show that the ABFT improves the performance of the system for a wide range of networks compared with existing BFT systems.
引用
收藏
页数:17
相关论文
共 50 条
[41]   Enabling Secure and Traceable Query Services for Internet of Things Using Blockchain [J].
Yin, Bo ;
Xu, Binyao ;
Liu, Yihu ;
Wang, Tianxu .
IEEE TRANSACTIONS ON NETWORK AND SERVICE MANAGEMENT, 2024, 21 (03) :3112-3123
[42]   A survey on blockchain architecture and consensus mechanism: design vulnerability and security analysis [J].
Sharma, Shashikant ;
Kushwaha, Dharmender Singh .
International Journal of Cloud Computing, 2024, 13 (05) :485-547
[43]   A comparative study on consensus mechanism with security threats and future scopes: Blockchain [J].
Yadav, Ashok Kumar ;
Singh, Karan ;
Amin, Ali H. ;
Almutairi, Laila ;
Alsenani, Theyab R. ;
Ahmadian, Ali .
COMPUTER COMMUNICATIONS, 2023, 201 :102-115
[44]   An Efficient and Secure Node-sampling Consensus Mechanism for Blockchain Systems [J].
Liang, Zhelin ;
Xu, Hao ;
Liu, Xiulong ;
Jiang, Shan ;
Li, Keqiu .
2022 18TH INTERNATIONAL CONFERENCE ON MOBILITY, SENSING AND NETWORKING, MSN, 2022, :371-378
[45]   Derived blockchain architecture for security-conscious data dissemination in edge-envisioned Internet of Drones ecosystem [J].
Singh, Maninderpal ;
Aujla, Gagangeet Singh ;
Bali, Rasmeet Singh .
CLUSTER COMPUTING-THE JOURNAL OF NETWORKS SOFTWARE TOOLS AND APPLICATIONS, 2022, 25 (03) :2281-2302
[46]   Blockchain-Based Cross-Domain Authentication for Intelligent 5G-Enabled Internet of Drones [J].
Feng, Chaosheng ;
Liu, Bin ;
Guo, Zhen ;
Yu, Keping ;
Qin, Zhiguang ;
Choo, Kim-Kwang Raymond .
IEEE INTERNET OF THINGS JOURNAL, 2022, 9 (08) :6224-6238
[47]   Blockchain-Assisted Efficient Data Sharing Scheme With Accountability and Privacy-Preserving for Internet of Drones Networks [J].
Zhou, Zequan ;
Luo, Xiling ;
Mao, Jian ;
He, Ting ;
Ji, Xiaohai ;
Wang, Junjun .
IEEE TRANSACTIONS ON VEHICULAR TECHNOLOGY, 2025, 74 (02) :3253-3268
[48]   Designing secure blockchain-based access control scheme in IoT-enabled Internet of Drones deployment [J].
Bera, Basudeb ;
Chattaraj, Durbadal ;
Das, Ashok Kumar .
COMPUTER COMMUNICATIONS, 2020, 153 :229-249
[49]   ReVo: A Hybrid Consensus Protocol for Blockchain in the Internet of Things through Reputation and Voting Mechanisms [J].
Barke, Shivam ;
Srivastava, Gautam .
2024 IEEE 21ST CONSUMER COMMUNICATIONS & NETWORKING CONFERENCE, CCNC, 2024,
[50]   Blockchain-based consensus algorithm for solving security issues in distributed internet of things [J].
Mohanta B.K. ;
Samal K. ;
Jena D. ;
Ramasubbareddy S. ;
Karuppiah M. .
International Journal of Electronic Business, 2022, 17 (03) :283-304