preprints_ui: nhwks_v1
Data license: ODbL (database) & original licenses (content) · Data source: Open Science Framework
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| nhwks_v1 | Post Quantum Cryptography based Land Records Management System with Integrated GIS and Encrypted Database | The proposed project introduces a revolutionary Post Quantum Cryptography (PQC) based Land Records Management System. This system is designed to modernize land administration by digitizing and encrypting government land records, thereby ensuring enhanced security and transparency. Utilizing cutting-edge cryptographic techniques, like Dilithium which is a lattice-based digital signature algorithm whose security is based on the hardness of finding short vectors in lattices. The system will facilitate the creation, storage, and verification of land ownership records, transfers, inheritance and transactions without the need for intermediaries or physical documentation. As many countries and regions are facing challenges and opportunities related to land administration and management. Land records are often outdated, inaccurate, incomplete, or vulnerable to fraud and corruption. This can lead to disputes, conflicts, inefficiencies, and inequalities in the access and use of land resources. On the other hand, land records are also valuable assets that can facilitate economic development, social inclusion, environmental protection, and governance improvement.By transitioning to a digital platform secured by PQC, the system mitigates these risks, thereby facilitating dispute resolution, promoting fair resource distribution, and supporting sustainable economic development. Incorporating Geographic Information System (GIS), the project enhances the precision of land boundary delineation and monitoring. The implementation of Dilithium, which is under consideration by the National Institute of Standards and Technology (NIST) for its post-quantum cryptography project, signifies a forward-thinking approach, while also providing real-time updates and maintaining the confidentiality of sensitive information. In summary, the project envisions a secure, efficient, and transparent future for land records management. By integrating advanced PQC with GIS, it lays the groundwork for a resilient infrastructure that supports equitable land administration and effective resource utilization in a post-quantum era | 2025-05-03T12:57:12.875120 | 2025-05-03T13:02:21.062917 | 2025-05-03T13:02:01.876582 | thesiscommons | 1 | pending | 1 | 1 | https://doi.org/10.31237/osf.io/nhwks_v1 | No license | [] | Dharaneesh Dhupam | [{"id": "462yh", "name": "Dharaneesh Dhupam", "index": 0, "orcid": "0009-0009-3534-6275", "bibliographic": true}] | Dharaneesh Dhupam | Engineering; Computer Engineering; Other Computer Engineering; Computer and Systems Architecture | [{"id": "59bac90254be8103137da292", "text": "Engineering"}, {"id": "59bac90754be8103137da33b", "text": "Computer Engineering"}, {"id": "59bac90f54be8103137da4a5", "text": "Other Computer Engineering"}, {"id": "59bac91754be8103137da675", "text": "Computer and Systems Architecture"}] | https://osf.io/download/681612b725bed343597c5a21 | 0 | not_applicable | not_applicable | [] | 2025-05-04T00:11:13.537195 |