Counterfeit products have become a growing threat to consumer safety, brand value, and global trade, particularly with the rise of digital commerce and globalization. Traditional countermeasures such as RFID, holograms, or centralized verification systems often fall short due to their vulnerability to duplication, tampering, and lack of transparency. By leveraging blockchain’s decentralized and immutable ledger, the system ensures that once product data is registered, it remains tamperproof, thereby providing a reliable basis for authenticity verification. In this framework, each item produced is assigned a distinct identifier—such as a QR code or barcode—linked to blockchain records that store product metadata and ownership history. End users can validate authenticity by scanning the identifier through a mobile application, which interacts with the blockchain to confirm legitimacy. A successful match authenticates the product, while mismatches identify counterfeit goods. The architecture also incorporates role-based dashboards, enabling manufacturers to register and monitor items, vendors to manage certified inventories,and buyers to instantly validate purchases. With the integration of automated smart contracts code generation, and real-time blockchain interactions, the system demonstrates scalability, security, and cost-effectiveness. By combining tamper-proof records with accessible verification tools, the model enhances supply chain traceability, strengthens consumer confidence, and safeguards brand reputation. Potential future extensions include applying artificial intelligence for predictive fraud detection, integrating IoT sensors for live tracking, and optimizing blockchain deployment for industrial-scale adoption. This approach offers a robust pathway toward protecting consumers and industries from the risks of counterfeiting.
Prakyath (Fri,) studied this question.