Geo-temporal Encrypted File Vault With Secure Access Control And Self-destruction

• Author(s):

  Mr.P.Rajapandian | Geetha Priya.V

• Keywords:

• Abstract:

  This Project Titled “Geo-Temporal Encrypted File Vault With Secure Access Control And Self-Destruction”, Ensures The Increasing Demand For Highly Secure And Controlled File Transactions, This System Introduces An Advanced Geo-Temporal Encrypted File Vault, Integrating Geofencing, Time Based Access Control, Elliptic Curve Cryptography (ECC), And Automated Self- Destruction Mechanisms. The System Ensures That Files Can Only Be Accessed Within A Specific Geographic Location And Time Window, Preventing Unauthorized Access. The Encryption Process Leverages ECC-based Public-key Cryptography To Ensure Lightweight Yet Robust Security. Multi-factor Authentication (MFA) Using Passcodes Or OTP Verification Enhances Access Control. Upon Successful Authentication, Access Details Such As Geolocation, Timestamps, And User Credentials Are Logged And Securely Sent To The File Owner For Auditing. To Maintain Data Confidentiality And Prevent Residual Exposure, Files Are Automatically Deleted After Access. This System Is Ideal For Secure Document Handling In Corporate, Legal, And Classified Environments, Ensuring Zero Unauthorized Access, Strong Data Encryption, And Automatic Risk Mitigation Through Self-destruction Mechanisms. The Development Of This Project Leverages HTML And Bootstrap (CSS) For The Front-end, Ensuring A Visually Appealing And Responsive Design. On The Backend, Java And MySQL Have Been Employed To Establish A Robust Foundation For Data Management And System Functionality. This Project Titled “Geo-Temporal Encrypted File Vault With Secure Access Control And Self- Destruction”, Ensures The Increasing Demand For Highly Secure And Controlled File Transactions, This System Introduces An Advanced Geo-Temporal Encrypted File Vault, Integrating Geofencing, Time Based Access Control, Elliptic Curve Cryptography (ECC), And Automated Self- Destruction Mechanisms. The System Ensures That Files Can Only Be Accessed Within A Specific Geographic Location And Time Window, Preventing Unauthorized Access. The Encryption Process Leverages ECC-based Public-key Cryptography To Ensure Lightweight Yet Robust Security. Multi-factor Authentication (MFA) Using Passcodes Or OTP Verification Enhances Access Control. Upon Successful Authentication, Access Details Such As Geolocation, Timestamps, And User Credentials Are Logged And Securely Sent To The File Owner For Auditing. To Maintain Data Confidentiality And Prevent Residual Exposure, Files Are Automatically Deleted After Access. This System Is Ideal For Secure Document Handling In Corporate, Legal, And Classified Environments, Ensuring Zero Unauthorized Access, Strong Data Encryption, And Automatic Risk Mitigation Through Self-destruction Mechanisms. The Development Of This Project Leverages HTML And Bootstrap (CSS) For The Front-end, Ensuring A Visually Appealing And Responsive Design. On The Backend, Java And MySQL Have Been Employed To Establish A Robust Foundation For Data Management And System Functionality. The System’s Architecture Emphasizes Both Security And Usability, Providing A Seamless User Experience Without Compromising On Protection. By Combining A Responsive Front-end Built With HTML And Bootstrap With A Robust Java-MySQL Backend, The Platform Ensures Efficient File Processing, Secure Data Handling, And Real-time User Interaction. The Audit Trail Generated During Each Access Attempt Not Only Supports Accountability But Also Enables Proactive Threat Detection And Response. This Holistic Approach Makes The Solution Adaptable For Integration Into Existing Enterprise Systems, Offering A Reliable Method For Organizations To Enforce Strict Data Governance Policies.

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Other Details

• Paper id:

  IJSARTV11I6103761

• Published in:

  Volume: 11 Issue: 6 June 2025

• Publication Date:

  2025-06-09

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