Authors are listed in alphabetical order by last name, unless an asterisk(*) is indicated.
Conference
- *S. Kim, J. Ha, M. Son, and B. Lee.
"Efficacy and Mitigation of the Cryptanalysis on AIM".
IACR Cryptology ePrint Archive, Report 2023/1474. 2023.
To appear the 5th NIST PQC Standardization Conference. - *S. Kim†, J. Ha†, M. Son, B. Lee, J. Lee, S. Lee, J. Kwon, J. Cho, H. Yoon, and J. Lee. (†co-first authors)
"AIM: Symmetric Primitive for Shorter Signatures with Stronger Security". (slides, full version)
The 30th ACM Conference on Computer and Communications Security (CCS 2023).
- J. Ha, S. Kim, B. Lee, J. Lee, and M. Son.
"Rubato: Noisy Ciphers for Approximate Homomorphic Encryption". (slides, full version)
The 41st Annual International Conference on the Theory and Applications of Cryptographic Techniques (EUROCRYPT 2022).
- J. Cho, J. Ha, S. Kim, B. Lee, J. Lee, J. Lee, D. Moon, and H. Yoon.
"Transciphering Framework for Approximate Homomorphic Encryption". (slides, full version)
International Conference on the Theory and Application of Cryptology and Information Security (ASIACRYPT 2021).
- S. Kim, B. Lee, and J. Lee.
"Tight Security Bounds for Double-Block Hash-then-Sum MACs".
The 39th Annual International Conference on the Theory and Applications of Cryptographic Techniques (EUROCRYPT 2020).
Journal
- *J. Ha, S. Kim, W. Choi, J. Lee, D. Moon, H. Yoon, and J. Cho.
"Masta: An HE-friendly Cipher Using Modular Arithmetic".
IEEE Access. 2020.
Technical Report
- *J. Lee, J. Cho, J. Ha, J. Kwon, S. Kim, B. Lee, J. Lee, S. Lee, D. Moon, M. Son, and H. Yoon.
"The AIMer Signature Scheme (Ver 2.0)".
Submission for Korean Post-Quantum Cryptography (KpqC) Competition 2nd round. 2024. - *S. Kim, J. Cho, M. Cho, J. Ha, J. Kwon, B. Lee, J. Lee, J. Lee, S. Lee, D. Moon, M. Son, and H. Yoon.
"The AIMer Signature Scheme (Ver 1.0)".
Submission for NIST Call for Additional Signature Schemes. 2023. - *S. Kim, J. Ha, M. Son, B. Lee, D. Moon, J. Lee, S. Lee, J. Kwon, J. Cho, H. Yoon, and J. Lee.
"The AIMer Signature Scheme (Ver 0.9)".
Submission for Korean Post-Quantum Cryptography (KpqC) Competition. 2022.
Ph.D. Dissertation
- S. Kim.
"On Homomorphic Encryption, Transciphering Frameworks, and HE-friendly Ciphers".
2022. KAIST.