Journal
MATHEMATICS
Volume 11, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/math11061348
Keywords
internet of things; security; blockchain; UAV
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Unmanned aerial vehicles, drones, and IoT devices are increasingly being used for aerial surveying of restricted or inaccessible locations. This study proposes a blockchain-based method to ensure the safety and confidentiality of data collected by virtual circuit-based devices. The suggested technique employs pentatope-based elliptic curve encryption and secure hash algorithm (SHA) for anonymity in data storage.
Unmanned aerial vehicles, drones, and internet of things (IoT) based devices have acquired significant traction due to their enhanced usefulness. The primary use is aerial surveying of restricted or inaccessible locations. Based on the aforementioned aspects, the current study provides a method based on blockchain technology for ensuring the safety and confidentiality of data collected by virtual circuit-based devices. To test the efficacy of the suggested technique, an IoT-based application is integrated with a simulated vehicle monitoring system. Pentatope-based elliptic curve encryption and secure hash algorithm (SHA) are employed to provide anonymity in data storage. The cloud platform stores technical information, authentication, integrity, and vehicular responses. Additionally, the Ethbalance MetaMask wallet is used for BCN-based transactions. Conspicuously, the suggested technique aids in the prevention of several attacks, including plaintext attacks and ciphertext attacks, on sensitive information. When compared to the state-of-the-art techniques, the outcomes demonstrate the effectiveness and safety of the suggested method in terms of operational cost (2.95 units), scalability (14.98 units), reliability (96.07%), and stability (0.82).
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