Problem Statement :
The current organ donation system faces inefficiencies, delays, and errors due to manual processes, leading to life-threatening consequences. A lack of transparency and real-time tracking creates mistrust, while weak data protection exposes sensitive medical information to breaches. These challenges highlight the need for a secure, efficient, and transparent solution to improve organ donation and allocation.
Scopes :
The proposed platform tackles organ donation challenges by automating donor-recipient matching, minimizing delays, and reducing manual intervention. It ensures transparency and trust through real-time tracking and uses blockchain technology to securely encrypt medical data, accessible only to authorized users. With its decentralized structure, the system eliminates central authorities, fostering trust and verifiability. Designed for global accessibility, it promotes collaboration among healthcare institutions and offers a scalable, reliable solution for integrating blockchain into healthcare.
Objectives :
The solution aims to develop a decentralized application (dApp) using blockchain technology to efficiently connect organ donors and recipients. It ensures data confidentiality through strong cryptography and automates donor-recipient matching with smart contracts based on medical criteria. The platform enhances transparency with real-time updates, fosters trust among stakeholders, and provides a user-friendly interface for seamless adoption by healthcare providers, patients, and donors.