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 Conference Papers (Available on Advance Programs)  (Sort by: Date Descending)
 Results 1 - 14 of 14  /   
Committee Date Time Place Paper Title / Authors Abstract Paper #
SCE 2022-11-04
14:45		 Miyagi RIEC, Tohoku Univ.
(Primary: On-site, Secondary: Online)		 True Random Number Sequences Generated by Utilizing Timing Jitters in Superconducting Integrated Circuits
Kenta Sato (UEC), Naonori Sega, Hiroshi Shimada, Mizugaki Yoshinao (UEC) SCE2022-10		 A Hardware Random Number Generator (HRNG), which generates true random number sequences, is studied. In superconducting ... [more] SCE2022-10
pp.6-10
HWS, ICD 2022-10-25
11:25		 Shiga
(Primary: On-site, Secondary: Online)		 Fundamental Study on Randomness Evaluation of ERO-TRNG Using APD
Keiichi Ozaki, Daisuke Fujimoto (NAIST), Saki Osuka, Shinichi Kawamura (AIST), Yuichi Hayashi (NAIST) HWS2022-33 ICD2022-25		 Randomness evaluation of true random number generators (TRNGs) based on ring oscillators (ROs) requires an analysis of o... [more] HWS2022-33 ICD2022-25
pp.17-22
CPM 2022-08-04
15:50		 Hokkaido   Prototyping of random number generator using magnetic domain images
Shinichiro Mito (NITTC) CPM2022-14		 A random number is widely used in the information technologies such as security, simulation, and deep learning. With the... [more] CPM2022-14
pp.11-13
EMM, BioX, ISEC, SITE, ICSS, HWS, IPSJ-CSEC, IPSJ-SPT [detail] 2022-07-19
13:50		 Online Online Randomness evaluation of TERO-based TRNG with a side-channel attack countermeasure
Saki Osuka (AIST), Daisuke Fujimoto, Yuichi Hayashi (NAIST), Shinichi Kawamura (AIST) ISEC2022-9 SITE2022-13 BioX2022-34 HWS2022-9 ICSS2022-17 EMM2022-17		 True random number generators (TRNGs) based on ring oscillators (ROs) are employed in many devices because they can be c... [more] ISEC2022-9 SITE2022-13 BioX2022-34 HWS2022-9 ICSS2022-17 EMM2022-17
pp.13-17
BioX, ISEC, SITE, ICSS, EMM, HWS, IPSJ-CSEC, IPSJ-SPT [detail] 2021-07-20
15:55		 Online Online Evaluation of TRNG Using CMOS Image Sensor
Hayato Tatsuno, Tatsuya Oyama, Masayoshi Shirahata, Shunsuke Okura, Takeshi Fujino (Ritsumeikan Univ.) ISEC2021-26 SITE2021-20 BioX2021-27 HWS2021-26 ICSS2021-31 EMM2021-31		 Recently, the number of IoT devices has been increasing rapidly, and cryptographic functions such as authentication, key... [more] ISEC2021-26 SITE2021-20 BioX2021-27 HWS2021-26 ICSS2021-31 EMM2021-31
pp.98-103
BioX, ISEC, SITE, ICSS, EMM, HWS, IPSJ-CSEC, IPSJ-SPT [detail] 2021-07-20
16:20		 Online Online Implementation and Evaluation of a Ring Oscillator Type True Random Number Generator (2)
Ryuichi Minagawa, KevinHideaki Omae, Kotarou Hayashi, Naoya Torii (Soka Univ.) ISEC2021-27 SITE2021-21 BioX2021-28 HWS2021-27 ICSS2021-32 EMM2021-32		 A true random number generator (TRNG) is suitable for securing key generation and nonce generation on IoT devices. The r... [more] ISEC2021-27 SITE2021-21 BioX2021-28 HWS2021-27 ICSS2021-32 EMM2021-32
pp.104-109
SITE, ISEC, HWS, EMM, BioX, IPSJ-CSEC, IPSJ-SPT, ICSS [detail] 2020-07-21
10:00		 Online Online Performance Evaluation of True Random Number Generator Using Latches
Naoya Torii, Hideaki Kevin Omae (Soka Univ.) ISEC2020-24 SITE2020-21 BioX2020-27 HWS2020-17 ICSS2020-11 EMM2020-21		 The use of a physical random number generator (TRNG) is suitable for secure key generation of IoT devices and secure non... [more] ISEC2020-24 SITE2020-21 BioX2020-27 HWS2020-17 ICSS2020-11 EMM2020-21
pp.69-74
HWS, ICD [detail] 2019-11-01
15:20		 Osaka DNP Namba SS Bld. Fundamental study on an estimation method of output bits from TERO-based TRNG during frequency injection attack
Saki Osuka, Daisuke Fujimoto, Yuichi Hayashi (NAIST) HWS2019-62 ICD2019-23		 True random number generators (TRNGs) based on ring oscillators (ROs) are employed in many devices because they can be c... [more] HWS2019-62 ICD2019-23
pp.29-34
QIT
(2nd)		 2019-05-21
15:50		 Fukuoka Kyushu University, Chikushi Campus Quantum Computer Status Check via Output Random Numbers Sequence
Kentaro Tamura, Yutaka Shikano (Keio Univ.) 		The stochastic nature of quantum computers allows the generation of true random numbers. This is because the measurement... [more]
EMCJ, IEE-EMC, IEE-MAG 2018-11-22
15:10		 Overseas KAIST [Poster Presentation] Fundamental Study on Degradation of Randomness in TRNG Due to Intentional Electromagnetic Interference
Saki Osuka, Daisuke Fujimoto (NAIST), Naofumi Homma (Tohoku Univ.), Arthur Beckers, Josep Balasch, Benedikt Gierlichs, Ingrid Verbauwhede (KU Leuven), Yu-ichi Hayashi (NAIST) EMCJ2018-66		 Attacks that degrade the randomness of a true random number generator (TRNG) by physical attacks on entropy sources, whi... [more] EMCJ2018-66
pp.35-36
SAT, SANE
(Joint)		 2016-02-17
09:30		 Hiroshima Hiroshima Institute of Technology Security enhancement of drone control communications by quantum key distribution.
Toshiyuki Ito (NICT), Kazuo Ichihara (PRODRONE), Mitsuo Kitamura, Ryoji Nishizawa, Mikio Fujiwara, Masahide Sasaki (NICT) SAT2015-71		 Recently, performances of drones (unmanned aerial vehicles, UAVs) rapidly progress, and their applications spread into m... [more] SAT2015-71
pp.47-50
VLD 2013-03-06
10:30		 Okinawa Okinawa Seinen Kaikan A worst-case-aware design methodology for oscillator-based true random number generator with stochastic behavior modeling
Takehiko Amaki, Masanori Hashimoto (Osaka Univ.), Yukio Mitsuyama (Kochi Univ. of Tech.), Takao Onoye (Osaka Univ.) VLD2012-154		 This paper presents a worst-case-aware design methodology for an oscillator-based true random number generator (TRNG) ro... [more] VLD2012-154
pp.99-104
ICD 2011-12-15
16:10		 Osaka   [Poster Presentation] An oscillator-based true random number generator with jitter amplifier
Takehiko Amaki, Masanori Hashimoto, Takao Onoye (Osaka Univ.) ICD2011-118		 This paper presents an oscillator-based TRNG (true random number generator) with jitter amplifier. The proposed jitter a... [more] ICD2011-118
pp.87-92
CAS, NLP 2007-10-19
15:20		 Tokyo Musashi Institute of Technology An Electric Circuit Analogue of Adaptive Transport Networks in True Slime Mold
Yuta Kondo, Hisa-Aki Tanaka (Univ. of Electro-Comm.) CAS2007-63 NLP2007-91		 We propose an electrical circuit analogue of adaptive transport networks in true slime mold.
From systematic simulation... [more]		 CAS2007-63 NLP2007-91
pp.65-69
 Results 1 - 14 of 14  /   
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