Volume - 7 | Issue - 1 | march 2025
Published
20 March, 2025
The growing complexity of satellite operations requires an advanced and secure monitoring system to ensure data integrity, system reliability, and operational efficiency. Traditional satellite monitoring frameworks rely on centralized data management, which is vulnerable to cyber threats, data loss, and unauthorized modifications. This study presents a Blockchain-Enabled Prediction System that acts as a supporting tool for existing satellite monitoring infrastructures. The proposed system utilizes Hyperledger fabric to establish a tamper-proof ledger for storing satellite telemetry data, ensuring data security and traceability. Unlike conventional models, the blockchain architecture guarantees immutability, enabling secure and verifiable satellite performance monitoring. A web-based dashboard is integrated to facilitate real-time alerts and parameter visualization. The implementation of smart contracts allows for automated validation and alert generation when anomalies are detected in satellite parameters. The performance of the system is evaluated in terms of transaction efficiency, security validation, and integrity assurance, demonstrating its feasibility for scalable and secure satellite operations.
KeywordsSatellite Management Downtime Prediction Hyperledger Fabric Supervised Learning
