SYMBOLIC PLITHOGENIC NUMBERS IN RSA CRYPTOGRAPHY: A PATH TO POST-QUANTUM SECURITY

Project Code :TCMAPY1986

Objective

The objective of this project is to enhance the security of the RSA algorithm by incorporating symbolic 2-plithogenic and 3-plithogenic numbers, which introduce multidimensional complexity into the encryption and decryption processes. This approach aims to develop a cryptographic system that is resistant to quantum computing attacks, providing a post-quantum cryptographic solution. The project involves designing and implementing new algorithms for key generation, encryption, and decryption, ensuring that these processes are more complex than traditional RSA methods. By significantly increasing the difficulty of integer factorization using symbolic plithogenic numbers, the project strengthens cryptographic security against both classical and quantum-based attacks. Ultimately, the goal is to contribute to the theoretical development of secure encryption methods, offering a foundation for future cryptographic solutions in the evolving landscape of quantum computing.

Abstract

The project "Secure File Restoring with Cloud Computing" aims to provide a robust and secure platform for users to upload, request, and download files in a cloud environment. It involves two key modules: Admin and User. The Admin module allows administrators to manage user access by authorizing or deauthorizing users and viewing uploaded files. The User module enables users to register, log in (after being authorized by the admin), manage their profiles, and upload files that are encrypted using the AES algorithm for security. Users can view their uploaded files, manage them, and also request files uploaded by other users. Requests are handled by the file owner, who can accept or reject the requests. Upon acceptance, the requester receives an OTP to verify and download the file securely. The system ensures a high level of security through AES encryption, OTP-based file access, and a user-friendly interface for managing requests and files. This project leverages cloud computing to provide scalability, security, and efficient file management.

KEYWORDS: Cloud Computing, Secure File Restoring, AES Encryption, User Management, Admin Panel, OTP Verification, File Upload/Download, File Request Management, Secure File Sharing, Cloud Security

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.