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| Hauptverfasser: | , , , , , , , , , , |
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| Format: | Preprint |
| Veröffentlicht: |
2025
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| Schlagworte: | |
| Online-Zugang: | https://arxiv.org/abs/2501.09802 |
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| _version_ | 1866917894656360448 |
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| author | Yun, Joseph Lifton, Eli Lee, Eunseo Yun, Yohan Song, Abigail Lee, Joshua Jimenez-Bert, Cristian Song, Benedict Lee, Yejun Seo, Alex Yun, Sijung |
| author_facet | Yun, Joseph Lifton, Eli Lee, Eunseo Yun, Yohan Song, Abigail Lee, Joshua Jimenez-Bert, Cristian Song, Benedict Lee, Yejun Seo, Alex Yun, Sijung |
| contents | The rapid advancements in quantum computing present significant threats to existing encryption standards and internet security. Simultaneously, the advent of Web 3.0 marks a transformative era in internet history, emphasizing enhanced data security, decentralization, and user ownership. This white paper introduces the W3ID, an abbreviation of Web3 standard meeting universal digital ID, which is a Universal Digital Identity (UDI) model designed to meet Web3 standards while addressing vulnerabilities posed by quantum computing. W3ID innovatively generates secure Digital Object Identifiers (DOIs) tailored for the decentralized Web 3.0 ecosystem. Additionally, W3ID employs a dual-key system for secure authentication, enhancing both public and private verification mechanisms. To further enhance encryption strength and authentication integrity in the quantum computing era, W3ID incorporates an advanced security mechanism. By requiring quadruple application of SHA-256, with consecutive matches for validation, the system expands the number of possibilities to 256^4, which is approximately 4.3 billion times the current SHA-256 capacity. This dramatic increase in computational complexity ensures that even advanced quantum computing systems would face significant challenges in executing brute-force attacks. W3ID redefines digital identity standards for Web 3.0 and the quantum computing era, setting a new benchmark for security, scalability, and decentralization in the global digital twin ecosystem. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2501_09802 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | W3ID: A Quantum Computing-Secure Digital Identity System Redefining Standards for Web3 and Digital Twins Yun, Joseph Lifton, Eli Lee, Eunseo Yun, Yohan Song, Abigail Lee, Joshua Jimenez-Bert, Cristian Song, Benedict Lee, Yejun Seo, Alex Yun, Sijung Cryptography and Security The rapid advancements in quantum computing present significant threats to existing encryption standards and internet security. Simultaneously, the advent of Web 3.0 marks a transformative era in internet history, emphasizing enhanced data security, decentralization, and user ownership. This white paper introduces the W3ID, an abbreviation of Web3 standard meeting universal digital ID, which is a Universal Digital Identity (UDI) model designed to meet Web3 standards while addressing vulnerabilities posed by quantum computing. W3ID innovatively generates secure Digital Object Identifiers (DOIs) tailored for the decentralized Web 3.0 ecosystem. Additionally, W3ID employs a dual-key system for secure authentication, enhancing both public and private verification mechanisms. To further enhance encryption strength and authentication integrity in the quantum computing era, W3ID incorporates an advanced security mechanism. By requiring quadruple application of SHA-256, with consecutive matches for validation, the system expands the number of possibilities to 256^4, which is approximately 4.3 billion times the current SHA-256 capacity. This dramatic increase in computational complexity ensures that even advanced quantum computing systems would face significant challenges in executing brute-force attacks. W3ID redefines digital identity standards for Web 3.0 and the quantum computing era, setting a new benchmark for security, scalability, and decentralization in the global digital twin ecosystem. |
| title | W3ID: A Quantum Computing-Secure Digital Identity System Redefining Standards for Web3 and Digital Twins |
| topic | Cryptography and Security |
| url | https://arxiv.org/abs/2501.09802 |