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Naoyuki Shinohara
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2020 – today
- 2023
- [j13]Takashi Kurokawa
, Takuma Ito, Naoyuki Shinohara, Akihiro Yamamura
Selection Strategy of F4-Style Algorithm to Solve MQ Problems Related to MPKC. Cryptogr. 7(1): 10 (2023) - [j12]Takuma Ito, Koutaro Kobayashi, Takashi Kurokawa, Naoyuki Shinohara, Shigenori Uchiyama:
A technique to reduce memory usage of M4GB algorithm. JSIAM Lett. 15: 125-128 (2023) - 2022
- [j11]Takuma Ito, Yuta Hoshi, Naoyuki Shinohara, Shigenori Uchiyama:
Polynomial selection of F4 for solving the MQ problem. JSIAM Lett. 14: 135-138 (2022) - 2021
- [j10]Takuma Ito, Naoyuki Shinohara, Shigenori Uchiyama:
Solving the MQ Problem Using Gröbner Basis Techniques. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 104-A(1): 135-142 (2021) - [j9]Takuma Ito, Atsushi Nitta, Yuta Hoshi, Naoyuki Shinohara, Shigenori Uchiyama:
Polynomial selection for computing Gröbner bases. JSIAM Lett. 13: 72-75 (2021) - [i7]Yoshinori Aono, Sitong Liu, Tomoki Tanaka, Shumpei Uno, Rodney Van Meter, Naoyuki Shinohara, Ryo Nojima:
The Present and Future of Discrete Logarithm Problems on Noisy Quantum Computers. CoRR abs/2111.06102 (2021) - 2020
- [j8]Yusuke Takemura, Keisuke Hakuta, Naoyuki Shinohara:
ECC Atomic Block with NAF against Strong Side-Channel Attacks on Binary Curves. Int. J. Netw. Comput. 10(2): 277-292 (2020)
2010 – 2019
- 2019
- [j7]Saki Nagashima, Naoyuki Shinohara, Shigenori Uchiyama:
Quadratic Frobenius pseudoprimes with respect to $x^{2}+5x+5$. JSIAM Lett. 11: 53-55 (2019) - [c9]Yusuke Takemura, Keisuke Hakuta, Naoyuki Shinohara:
ECC Atomic Block against Strong Side-Channel Attacks Using Binary Curves. CANDAR Workshops 2019: 387-393 - [c8]Takuma Ito, Naoyuki Shinohara, Shigenori Uchiyama:
An Efficient F_4 -style Based Algorithm to Solve MQ Problems. IWSEC 2019: 37-52 - 2015
- [i6]Yun-Ju Huang, Christophe Petit, Naoyuki Shinohara, Tsuyoshi Takagi:
On Generalized First Fall Degree Assumptions. IACR Cryptol. ePrint Arch. 2015: 358 (2015) - 2014
- [j6]Naoyuki Shinohara, Takeshi Shimoyama, Takuya Hayashi
Key Length Estimation of Pairing-Based Cryptosystems Using ηT Pairing over GF(3n). IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 97-A(1): 236-244 (2014) - [j5]Noboru Kunihiro
Recovering RSA Secret Keys from Noisy Key Bits with Erasures and Errors. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 97-A(6): 1273-1284 (2014) - [j4]Noboru Kunihiro
A Unified Framework for Small Secret Exponent Attack on RSA. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 97-A(6): 1285-1295 (2014) - 2013
- [c7]Yun-Ju Huang, Christophe Petit
Improvement of Faugère et al.'s Method to Solve ECDLP. IWSEC 2013: 115-132 - [c6]Noboru Kunihiro
Recovering RSA Secret Keys from Noisy Key Bits with Erasures and Errors. Public Key Cryptography 2013: 180-197 - 2012
- [j3]Takuya Hayashi
Solving a 676-Bit Discrete Logarithm Problem in GF(36n). IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 95-A(1): 204-212 (2012) - [c5]Takuya Hayashi
Breaking Pairing-Based Cryptosystems Using η T Pairing over GF(397). ASIACRYPT 2012: 43-60 - [c4]Naoyuki Shinohara, Takeshi Shimoyama, Takuya Hayashi
Key Length Estimation of Pairing-Based Cryptosystems Using η T Pairing. ISPEC 2012: 228-244 - [i5]Naoyuki Shinohara, Takeshi Shimoyama, Takuya Hayashi, Tsuyoshi Takagi:
Key Length Estimation of Pairing-based Cryptosystems using ηT Pairing. IACR Cryptol. ePrint Arch. 2012: 42 (2012) - [i4]Takuya Hayashi, Takeshi Shimoyama, Naoyuki Shinohara, Tsuyoshi Takagi:
Breaking pairing-based cryptosystems using ηT pairing over GF(397). IACR Cryptol. ePrint Arch. 2012: 345 (2012) - [i3]Noboru Kunihiro, Naoyuki Shinohara, Tetsuya Izu:
Recovering RSA Secret Keys from Noisy Key Bits with Erasures and Errors. IACR Cryptol. ePrint Arch. 2012: 701 (2012) - 2011
- [j2]Naoyuki Shinohara, Tetsuya Izu, Noboru Kunihiro
Small Secret CRT-Exponent Attacks on Takagi's RSA. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 94-A(1): 19-27 (2011) - [c3]Noboru Kunihiro
A Unified Framework for Small Secret Exponent Attack on RSA. Selected Areas in Cryptography 2011: 260-277 - [i2]Noboru Kunihiro, Naoyuki Shinohara, Tetsuya Izu:
A Unified Framework for Small Secret Exponent Attack on RSA. IACR Cryptol. ePrint Arch. 2011: 591 (2011) - 2010
- [c2]Takeshi Osoekawa, Naoyuki Shinohara, Yuji Mochizuki, Kazuhiro Yokoyama:
Gröbner Basis Technique for Algebraic Formulas in Electron Correlation Theories. ICCSA Workshops 2010: 17-23 - [c1]Takuya Hayashi
Solving a 676-Bit Discrete Logarithm Problem in GF(36n). Public Key Cryptography 2010: 351-367 - [i1]Takuya Hayashi, Naoyuki Shinohara, Lihua Wang, Shin'ichiro Matsuo, Masaaki Shirase, Tsuyoshi Takagi:
Solving a 676-bit Discrete Logarithm Problem in GF(36n). IACR Cryptol. ePrint Arch. 2010: 90 (2010)
2000 – 2009
- 2008
- [j1]Naoyuki Shinohara:
Inefficacious Conditions of the Frobenius Primality Test and Grantham's Problem. IEICE Trans. Fundam. Electron. Commun. Comput. Sci. 91-A(11): 3325-3334 (2008)
Coauthor Index
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