Secure Data Access in Cloud Environments Using Quantum Cryptography
This work addresses data security for cloud users by proposing a quantum-resistant solution, though it appears incremental as it combines existing quantum cryptographic methods without introducing new paradigms.
The study tackled the challenge of securing data in cloud environments against future quantum computer threats by applying quantum cryptography, specifically using Quantum Key Distribution (BB84 protocol) and Quantum One Time Pad encryption to ensure data privacy and protection.
Cloud computing has made storing and accessing data easier but keeping it secure is a big challenge nowadays. Traditional methods of ensuring data may not be strong enough in the future when powerful quantum computers become available. To solve this problem, this study uses quantum cryptography to protect data in the cloud environment. Quantum Key Distribution (QKD) creates secure keys by sending information using quantum particles like photons. Specifically, we use the BB84 protocol, a simple and reliable way to make secure keys that cannot be stolen without detection. To protect the data, we use the Quantum One Time pad (QOTP) for encryption and decryption, ensuring the data stays completely private. This study shows how these Quantum methods can be applied in cloud systems to provide a strong defense against hackers, even if they have access to quantum computers. The combination of QKD, BB84, and QOTP creates a safe and reliable way to keep data secure when it is stored or shared in the cloud. Using quantum cryptography, this paper provides a way to ensure data security now and in the future, making cloud computing safer for everyone to store their data securely and safely.