A Tree-based Construction for Verifiable Diplomas with Issuer Transparency
This addresses the costly and fraud-prone verification of academic diplomas for institutions and verifiers, though it appears incremental as it builds on digital signatures and blockchain concepts.
The paper tackles the problem of verifying academic credentials by designing a tree-based protocol with linked time-stamping and smart contracts to prevent fraud and increase issuer transparency, achieving strong cryptographic security with acceptable costs compared to existing solutions.
Still to this day, academic credentials are primarily paper-based, and the process to verify the authenticity of such documents is costly, time-consuming, and prone to human error and fraud. Digitally signed documents facilitate a cost-effective verification process. However, vulnerability to fraud remains due to reliance on centralized authorities that lack full transparency. In this paper, we present the mechanisms we designed to create secure and machine-verifiable academic credentials. Our protocol models a diploma as an evolving set of immutable credentials. The credentials are built as a tree-based data structure with linked time-stamping, where portions of credentials are distributed over a set of smart contracts. Our design prevents fraud of diplomas and eases the detection of degree mills, while increasing the transparency and trust in the issuer's procedures. Our evaluation shows that our solution offers a certification system with strong cryptographic security and imposes a high level of transparency of the certification process. We achieve these benefits with acceptable costs compared to existing solutions that lack such transparency.