Abstract:
Users and sensor-equipped entities send multiple messages to the Command Control Center (CCC) via the Internet of Battlefield Things (IoBT). If a malicious node transmits, alters, or replays these messages, disasters will result. Centralized authentication systems have single points of failure, privacy, and scalability issues, making them unsuitable for distributed environments. Centralization’s high communication overhead increases energy use. We propose Blockchain-based Autonomous Authentication and Integrity for the Internet of Battlefield Things (BIoBT) for the C3I system. When receiving data, the blockchain verifies entities without an explicit authentication channel. It ensures data integrity and non-repudiation. Create, deploy, and test BIoBT prototype on Ethereum test network. The results show that BIoBT is efficient, cost-effective, and meets distributed IoBT security requirements. BIoBT requires fewer messages to establish a secure channel than current mechanisms, reducing communication overhead and resource consumption.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
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