Browsing by Author "Charles Emong"
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Item Enhancing Message Security Through Encryption Decryption Techniques and Strategies(Uganda Christian University, 2024-08-18) Charles EmongThis project centers on developing a secure communication system using the AES (Advanced Encryption Standard) encryption-decryption algorithm. As cyber threats increase and more sensitive data is exchanged online, safeguarding the privacy, integrity, and authenticity of digital communications is crucial. The project employs AES, a renowned symmetric key encryption method, to safeguard data from unauthorized access both in transit and storage. The AES algorithm, specifically the 256-bit version, is selected for its blend of high security and computational efficiency. This makes it ideal for securing sensitive communications, from personal exchanges to corporate and military contexts. The system works by converting plaintext information, such as messages or files, into cipher text before transmission, ensuring it is unreadable by unauthorized users. The recipient then uses the same key to decrypt the data and recover the original information. The system design integrates several essential security elements, such as: Key Generation and Management: The system securely generates and distributes encryption keys, with regular rotation to mitigate cryptographic vulnerabilities. User Authentication: Only authenticated users can access encrypted or decrypted information, supported by strong authentication mechanisms. Data Integrity: Techniques are implemented to ensure that transmitted data remains unaltered during transmission. Real-Time Secure Communication: The system enables real-time encryption and decryption for communication across networks like LAN and the internet, using socket programming to securely transfer data between devices. This project aims to showcase the practical application of AES encryption in securing real-world communications. A user-friendly interface is provided for managing encryption and decryption activities, supporting key updates, access to encrypted/decrypted data, and integrity checks. The system is also scalable, making it suitable for both personal and large-scale organizational use. Throughout its development, the project addresses common challenges in encryption systems, including key management, balancing encryption performance, and maintaining compatibility with existing communication systems. Ultimately, this project delivers a secure and efficient solution for protecting sensitive data transmissions in today’s digital landscape. Keywords: AES encryption, secure communication, data protection, cryptography, symmetric encryption, key management, cyber security, network security.