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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 20 of 20  /   
Committee Date Time Place Paper Title / Authors Abstract Paper #
RCC, ISEC, IT, WBS 2024-03-13
14:15		 Osaka Osaka Univ. (Suita Campus) Proxy Re-encryption based on LPN
Haruki Fujimoto, Shingo Sato, Junji Shikata (YNU) IT2023-88 ISEC2023-87 WBS2023-76 RCC2023-70		 We propose a proxy re-encryption (PRE) scheme based on the Learning Parity with Noise (LPN) problem using error-correcti... [more] IT2023-88 ISEC2023-87 WBS2023-76 RCC2023-70
pp.79-86
RCC, ISEC, IT, WBS 2024-03-13
14:15		 Osaka Osaka Univ. (Suita Campus) Quantum Insertion Correcting Algorithm for Quantum Deletion Correcting Codes Based on Quantum Reed-Solomon Codes
Koki Sasaki, Takayuki Nozaki (Yamaguchi Univ.) IT2023-91 ISEC2023-90 WBS2023-79 RCC2023-73		 Research on quantum insertion or deletion error correcting codes has become active in recent years.In 2023, Hagiwara con... [more] IT2023-91 ISEC2023-90 WBS2023-79 RCC2023-73
pp.102-107
SIP, IT, RCS 2024-01-19
10:55		 Miyagi
(Primary: On-site, Secondary: Online)		 Single-Insertion/Deletion Correcting Non-binary Quantum Codes and Decoding Algorithm
Ken Nakamura, Takayuki Nozaki (Yamaguchi Univ.) IT2023-64 SIP2023-97 RCS2023-239		 This paper inverstigates decoding algorithm for correcting quantum insertion errors and quantum deletion errors. This pa... [more] IT2023-64 SIP2023-97 RCS2023-239
pp.187-192
IT, RCS, SIP 2023-01-24
11:30		 Gunma Maebashi Terrsa
(Primary: On-site, Secondary: Online)		 Classical Code Construction for Quantum Deletion Error-Correcting Codes
Manabu Hagiwara (Chiba Univ.) IT2022-38 SIP2022-89 RCS2022-217		 As a recent contribution, the author provided conditions that a classical deletion error-correcting code is converted to... [more] IT2022-38 SIP2022-89 RCS2022-217
pp.51-53
QIT
(2nd)		 2022-12-09
18:15		 Kanagawa Keio Univ.
(Primary: On-site, Secondary: Online)		 Secure multi-party quantum computation based on triorthogonal quantum error-correcting codes
Petr Mishchenko, Keita Xagawa (NTT) 		Secure multi-party quantum computation (MPQC) protocol is a versatile tool that enables error-free distributed quantum c... [more]
QIT
(2nd)		 2022-12-08
14:00		 Kanagawa Keio Univ.
(Primary: On-site, Secondary: Online)		 [Poster Presentation] Correction protocol of erasure errors on surface code for Rydberg quantum computer
Fumiyoshi Kobayashi (Mercari/Osaka Univ.), Shota Nagayama (Mercari/Keio Univ) 		The Rydberg atomic quantum computer with optical tweezers array has good properties as a platform for quantum computing ... [more]
QIT
(2nd)		 2022-05-30
16:20		 Online Online Quantum Deletion Error and Instances of Single Quantum Deletion Error-Correcting Codes
Manabu Hagiwara (Chiba Univ.) 		First, the fundamentals concerning quantum deletion errors will be introduced. In particular, this manuscript introduces... [more]
QIT
(2nd)		 2022-05-31
13:30		 Online Online Fast decoding algorithms with Fenwick trees for surface codes under non-uniform errors
Tomochika Arai (Univ. of Tokyo), Yasunari Suzuki, Yuuki Tokunaga (NTT) 		Surface codes are one of the most promising quantum error-correcting codes, and its error estimation can be rephrased as... [more]
QIT
(2nd)		 2021-11-30
17:00		 Online Online Secure multi-party quantum computation based on triply-even quantum error-correcting codes
Mishchenko Petr, Xagawa Keita (NTT) 		In this talk we suggest secure multi-party quantum computation based on triply-even Chalderbank-Shor-Steane (CSS) quantu... [more]
AP, SANE, SAT
(Joint)		 2020-07-15
15:05		 Online Online Numerical investigation on the application of polar codes to free-space quantum key distribution
Yuma Yamashita (NITech), Hiroyuki Endo (NICT), Shingo Fujita, Eiji Okamoto (NITech), Hideki Takenaka, Morio Toyoshima (NICT) SAT2020-5		 Quantum key distribution (QKD) is a technology to securely share keys against any attack physically permitted, with the ... [more] SAT2020-5
pp.13-18
IT, SIP, RCS 2020-01-24
10:45		 Hiroshima Hiroshima City Youth Center Construction of Quantum Error Correcting Codes for Single Deletion Errors
Ayumu Nakayama, Manabu Hagiwara (Chiba Univ.) IT2019-68 SIP2019-81 RCS2019-298		 In this paper, we discuss the construction of quantum error correcting codes for single deletion errors. To begin with, ... [more] IT2019-68 SIP2019-81 RCS2019-298
pp.185-189
QIT
(2nd)		 2019-11-18
17:50		 Tokyo Gakushuin University Error suppression for adiabatic quantum computation with 2-local Hamiltonian
Ryotaro Suzuki, Keisuke Fujii (Osaka Univ.) 		To protect adiabatic quantum computation (AQC) from noise is necessary for reliable and large‐scale quantum computation.... [more]
QIT
(2nd)		 2019-11-19
12:10		 Tokyo Gakushuin University Conditions for equivalence of magic state distillation protocols in prime dimension at least 5
Yasuhiro Kondo, Ryuhei Mori (Tokyo Tech) 		Magic state distillation protocol is necessary for quantum fault-tolerant computation.
There are two well-known methods... [more]
ISEC 2017-09-04
14:30		 Tokyo Kikai-Shinko-Kaikan Bldg. Stabilizer Based Quantum Secret Sharing Constructed from Algebraic Curves
Cheng Wang (Saitama Univ.), Takeshi Koshiba (Waseda Univ.) ISEC2017-44		 In this paper we proposed a quantum secret sharing scheme constructed from algebraic curves and the stabilizer quantum e... [more] ISEC2017-44
pp.23-28
QIT
(2nd)		 2016-11-25
10:30		 Ibaraki KEK Kobayashi-hall [Tutorial Invited Lecture] Emergent Spacetime from Qubits via Holography
Tadashi Takayanagi (YITP, Kyoto U.) 		Holographic Principle, which was discovered in string theory, tells us that gravitational dynamics of universe is equiva... [more]
QIT
(2nd)		 2015-11-24
13:40		 Kanagawa NTT Atsugi R&D center [Poster Presentation] Solution to the Mean King's Problem in Qubit-Systems Using Higher-Dimensional Quantum Error-Correcting Codes
Toru Kuriyama, Masakazu Yoshida, Jun Cheng (Doshisha Univ.) 		Mean King's problem is a king of quantum estimation problems. In qubit-systems, we construct a higher-dimensional quantu... [more]
IT 2014-01-27
13:05		 Osaka Osaka City University A construction of adaptive quantum noise control [(pq)^2, (2+p(q-1))(pq-1)] codes
Tomoji Maruishi, Toru Fujiwara (Osaka Univ.) IT2013-47		 Typically, in physical devices, phase errors occur far more than bit errors. Recently, adaptively quantum noise control ... [more] IT2013-47
pp.11-16
QIT
(2nd)		 2013-05-27
17:10		 Hokkaido Hokkaido Univ. Construction of Single Error Correcting Quantum Codes for Amplitude Damping Channel Based on Classical Codes over GF(7)
Keisuke Kodaira, Mihoko Wada, Tomoharu Shibuya (Sophia Univ.) 		The amplitude damping quantum channel is one of the models describing evolution of quantum states.
The construction of... [more]
QIT
(2nd)		 2012-05-22
15:50		 Fukui Fukui Univ. A Solution to the Mean King's Problem using Quantum Error-Correcting Codes
Masakazu Yoshida (Chuo Univ.), Takayuki Miyadera (Kyoto Univ.), Gen Kimura (Shibaura Inst. of Tech.), Hideki Imai (Chuo Univ.) 		Mean King's problem is formulated as a quantum retrodiction problem for noncommutative observables. In this paper, we in... [more]
IBISML 2010-11-04
15:00		 Tokyo IIS, Univ. of Tokyo [Poster Presentation] Quantum Error Correction with Non-Binary LDPC Codes
Kenta Kasai (Tokyo Inst. of Tech.), Manabu Hagiwara (AIST), Hideki Imai (Chuo Univ.), Kohichi Sakaniwa (Tokyo Inst. of Tech.) IBISML2010-77		 Quantum error correction is used in quantum computing and quantum communications to protect quantum information from qua... [more] IBISML2010-77
pp.135-145
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