Secure Document Sharing System With Heisenberg group-based digital signature
Objective
The objective of this project is to develop a secure document-sharing system that integrates advanced cryptographic techniques, specifically Heisenberg Group-Based Digital Signatures and AES encryption, to ensure data integrity, authenticity, and confidentiality. The project aims to implement the Heisenberg Group-Based Digital Signature for robust document authentication, providing resistance against both classical and quantum cryptographic attacks. AES encryption will be used to encrypt documents, ensuring their confidentiality during upload, sharing, and storage. The system will allow users to register, log in, upload documents, share them securely, and verify their authenticity using the digital signature scheme. Additionally, admins will be able to manage users and documents, ensuring secure access and verification. Ultimately, the project seeks to create a scalable and efficient solution that future-proofs digital communication systems in the post-quantum cryptography era, providing a reliable framework for document sharing and protecting sensitive information from tampering and unauthorized access.
Abstract
This project implements a secure document-sharing system that integrates two advanced cryptographic techniques: Heisenberg Group-Based Digital Signatures and AES encryption. The system facilitates secure document upload, sharing, and verification, ensuring data integrity, authentication, and confidentiality. The Heisenberg digital signature scheme leverages the non-commutative properties of the Heisenberg group to provide robust signature generation and verification, offering strong resistance against cryptographic attacks, including quantum threats. AES encryption is used to encrypt the documents before storage or sharing, ensuring their confidentiality. Users can register, log in, upload documents, and share them with others, while admins can manage user access and view documents. The combination of Heisenberg digital signatures and AES encryption strengthens the security framework of the system, making it suitable for applications where both integrity and confidentiality are critical, such as in government, cloud computing, and secure communications.
KEYWORDS: Heisenberg Group, Digital Signature, AES Encryption, Document Sharing, Data Integrity, Authentication, Confidentiality.
NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.
Block Diagram
Specifications
H/W CONFIGURATION:
Processor - I3/Intel Processor
Hard Disk - 160GB
Key Board - Standard Windows Keyboard
Mouse - Two or Three Button Mouse
Monitor - SVGA
RAM - 8GB
S/W CONFIGURATION:
Operating System : Windows 7/8/10
Server side Script : HTML, CSS, Bootstrap & JS
Programming Language : Python
Libraries : Django
IDE/Workbench : VSCODE
Technology : Python 3.10+
Paper Publishing
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