Post-Quantum Cryptography Technology | NTT R&D Website
Post-Quantum Cryptography Technology | NTT R&D Website NTT R&D Website Research&Activity Post
https://www.rd.ntt/e/research/SI0016.html
Development of Modern Cryptography and Research on Quantum Cryptography | NTT R&D Website
post-quantum cryptography quantum cryptography The foundation of modern cryptography developed in 1976
https://www.rd.ntt/e/research/JN202305_21851.html
Research of Cryptographic Protocols for Secure Communications in the Quantum Computer Era | NTT R&D Website
for Secure Communications in the Quantum Computer Era post-quantum cryptography zero-knowledge proof
https://www.rd.ntt/e/research/JN202212_20406.html
Cutting-edge Research on Cryptography Theory in Response to Changes in Computing Environments | NTT R&D Website
are secure against the threat such computers pose-so-called post-quantum cryptography—without waiting
https://www.rd.ntt/e/research/JN20200223_h.html
Takashi Yamakawa | NTT R&D Website
Cryptography in the quantum age We study constructions of post-quantum and quantum cryptographic protocols and
https://www.rd.ntt/e/organization/researcher/superior/s_040.html
Ensuring Safe and Secure Information Communication for the Future through Post-quantum Secure Cryptography and Proof of Deletion Technologies | NTT R&D Website
Safe and Secure Information Communication for the Future through Post-quantum Secure Cryptography and
https://www.rd.ntt/e/research/JN202603_38465.html
Secure Optical-transport-network Technology in Anticipation of the Quantum Computer Era | NTT R&D Website
optical transponders-by using post-quantum cryptography (PQC) and quantum-key distribution (QKD)-and
https://www.rd.ntt/e/research/JN202302_20961.html
Ryo Nishimaki | NTT R&D Website
/pid/85/2415.html Keywords public-key cryptography, program obfuscation, program copy-protection, post
https://www.rd.ntt/e/organization/researcher/special/s_029.html
Quantum Cryptography Experiment Using a Single-Photon Source
Quantum Cryptography Experiment Using a Single-Photon Source Quantum Cryptography Experiment Using
https://www.rd.ntt/e/brl/result/activities/file/report02/E/report17.html
D03-08-e.pdf
encrypted by post quantum cryptography. Realize secure application infrastructure including; • Isolated
https://www.rd.ntt/forum/2024/doc/D03-08-e.pdf
Security Based on Quantum Information Technology and Data Protection of Quantum Information|NTT R&D Website
fields are roughly categorized into (1) cryptography secure against quantum computers (post-quantum
https://www.rd.ntt/e/research/JN202104_12240.html
Frontier Communication Laboratory | NTT Network Innovation Laboratories | NTT R&D Website
Post-quantum secure transport technology Optical-network digital twin Optical switch network for AI
https://www.rd.ntt/e/mirai/organization/product_2/
Hiroki Takesue Homepage
Hiroki Takesue Homepage Hiroki Takesue PhD, Group Leader, Senior Distinguished Scientist Quantum
https://www.rd.ntt/brl/people/htakesue/
NTT Research Center for Theoretical Quantum Information | NTT R&D Website
Cryptographic techniques using quantum information, post-quantum cryptography Quantum algorithms and quantum
https://www.rd.ntt/e/tqp/
Introduction of Evangelists | NTT Social Informatics Laboratories | NTT R&D Website
laboratory and is leading research on cryptography for the coming quantum era. Recipient of the 48th Ichimura
https://www.rd.ntt/e/sil/overview/evangelist/
Next-generation "Secure Public-key Cryptography" as a Solution to the Rapidly Growing Digital Threat | NTT R&D Website
called "post-quantum cryptography." As the implementation of quantum computers draws near, researchers
https://www.rd.ntt/e/research/JN202508_35343.html
Secure Optical Transport Network|NTT R&D Website
cryptography-based key distribution Post-quantum cryptography (PQC) is a public-key-cryptography and key
https://www.rd.ntt/e/research/JN202111_16202.html
N05_leaf_e.pdf
Developing an architecture that flexibly combines key exchange and authentication with post-quantum
https://www.rd.ntt/forum/2023/doc/N05_leaf_e.pdf
Expectations and Prospects for Innovation in Quantum Technology | NTT R&D Website
for actual use. Post-quantum cryptography (PQC), a cipher that cannot be solved even by a quantum
https://www.rd.ntt/e/research/JN202304_21549.html
About Us | NTT Social Informatics Laboratories | NTT R&D Website
utilization that balances usability and security; new data protection technology that utilizes cryptography as
https://www.rd.ntt/e/sil/overview/
量子計算機時代のセキュア光トランスポート技術 | NTT R&D Website
ん・なりすまし等の被害が発生する危険性があります。量子計算機でも解読できない次世代の暗号技術として、耐量子計算機暗号(PQC:Post-Quantum Cryptography)と量子鍵配送技術(QKD
https://www.rd.ntt/research/SI0025.html
Computing Theory Research Group | NTT Communication Science Laboratories | NTT R&D Website
Nakahama (2024). Representation theory of sl(2,R). Mathematical Foundations for Post-Quantum Cryptography
https://www.rd.ntt/e/cs/team_project/media/computing_theory/
情報基礎理論研究グループ|NTTコミュニケーション科学基礎研究所|NTT R&D Website
Nakahama (2024). Representation theory of sl(2,R). Mathematical Foundations for Post-Quantum Cryptography
https://www.rd.ntt/cs/team_project/media/computing_theory/
Standardization Trends Related to Application- and Service-related Technologies | NTT R&D Website
anonymous authentication and post-quantum cryptography. In particular, post-quantum cryptography, which is
https://www.rd.ntt/e/research/JN202311_23708.html
量子コンピュータ時代を見据えたセキュア光トランスポートネットワーク技術 | NTT R&D Website
をプラスする取り組みとして、光伝送装置間で耐量子計算機暗号(PQC:Post-Quantum Cryptography)や量子鍵配送(QKD:Quantum Key Distribution)を用いて共通
https://www.rd.ntt/research/JN202302_20961.html
APN-controller Technology for IOWN Service Provision and Expansion | NTT R&D Website
cryptographic algorithms. NIST has also promoted a standardization of post-quantum cryptography (PQC), a
https://www.rd.ntt/e/research/JN202311_23716.html
Report on the NTT R&D Forum — Road to IOWN 2022|NTT R&D Website
Sessions Special Session 1 Protocols for Post Quantum Cryptography In Special Session 1, "Protocols for
https://www.rd.ntt/e/forum/2022/
Report on the NTT R&D Forum — Road to IOWN 2022|NTT R&D Website
Sessions Special Session 1 Protocols for Post Quantum Cryptography In Special Session 1, "Protocols for
https://www.rd.ntt/e/forum/2022/index.html
IOWN PETs | NTT R&D Website
into account compromising of post-quantum cryptography (PQC), which is said to be secure against
https://www.rd.ntt/sil/project/iown-pec/
NTT Group’s Initiatives for a Post-COVID-19 Society|NTT R&D Website
addition, quantum cryptography and quantum communication are two fields that are increasingly being taken
https://www.rd.ntt/e/research/JN202102_10346.html
Dilemma between Quantum Speedup and Computational Reliability-Overcoming Errors with Efficient Verification Methods for Quantum Computing | NTT R&D Website
-information-processing tasks such as quantum cryptography and quantum communication. When a quantum computer
https://www.rd.ntt/e/research/JN202308_22757.html
NTT Institute for Fundamental Mathematics | NTT R&D Website
diverse fields including post-quantum cryptography, cosmology, particle physics and string theory
https://www.rd.ntt/e/ifm/
耐量子暗号技術の研究動向|NTT R&D WebSite
・2016年8月:NISTIR 8105 『Report on Post-Quantum Cryptography』 の発行 ・2016年8月:募集要項および選定基準についてのコメント募集 ・2016年12月
https://www.rd.ntt/research/JN20190223_h.html
R&D on Security Contributing to Creation of New Value | NTT R&D Website
next generation of secure computation; post-quantum cryptography, which maintains security even if
https://www.rd.ntt/e/research/JN20200210_h.html
R&D History | NTT R&D Website
develops a new cryptographic technique to enhance the security of post-quantum public-key encryption NTT
https://www.rd.ntt/e/about/chronicle/
Updates | NTT R&D Website
/2026 Ensuring Safe and Secure Information Communication for the Future through Post-quantum Secure
https://www.rd.ntt/e/update_information/
Keynote Speech 2|Report on the NTT R&D Forum 2021|NTT R&D Website
. Research on the next generation cryptography post-quantum cryptography (PQC), which cannot be broken even
https://www.rd.ntt/e/forum/2021/keynote_2.html
IOWN-PETs | NTT R&D Website
-quantum cryptography)の将来的な危殆化を考慮して、複数の暗号アルゴリズムを組み合わせたり、ユーザニーズや状況に応じて暗号アルゴリズムを切り替えることが可能な鍵交換アーキテクチャを実現
https://www.rd.ntt/sil/project/iown-pets/iown-pets.html
Theoretical Approach to Overcome Difficulties in Implementing Quantum Computers|NTT R&D Website
cryptography. A long (waiting) time until measurements are carried out, however, requires quantum memory, a
https://www.rd.ntt/e/research/JN202103_11039.html
IOWNサービス提供、普及拡大に向けたAPNコントローラ技術 | NTT R&D Website
方です。 また、現在、量子コンピュータでも効率的に解くことができないとされている数学問題の困難性を安全性の根拠とした暗号方式として、耐量子計算機暗号(PQC:Post-Quantum Cryptography)の標準化
https://www.rd.ntt/research/JN202311_23716.html
Data Governance for Achieving Data Sharing in the IOWN Era | NTT R&D Website
appropriate for the post-quantum cryptography (PQC) era. The National Institute of Standards and Technology
https://www.rd.ntt/e/research/JN202302_20952.html
量子計算機時代の到来を見据えた暗号研究 | NTT R&D Website
ると期待されています。 *4 耐量子計算機暗号:量子計算機の計算能力をもってしても解読が困難な暗号方式のこと。 耐量子計算機暗号(PQC : Post-Quantum Cryptography)の研究開発
https://www.rd.ntt/research/JN202509_36082.html
耐量子セキュアトランスポート技術 | NTT R&D Website
について、その概要と、耐量子セキュアトランスポート技術としてどう具現化したかについて紹介します。 技術目標・成果・効果 1. 耐量子計算機暗号(Post-Quantum Cryptography, PQC) 量子コン
https://www.rd.ntt/iown_tech/post_52.html
Security R&D Initiatives for Creating a Safe and Secure Society|NTT R&D Website
future such as cryptography and information theory and quantum information security technology [5]. To
https://www.rd.ntt/e/research/JN202104_12175.html
セキュア光トランスポートネットワーク|NTT R&D Website
) 耐量子計算機暗号(PQC:Post-Quantum Cryptography)は、数学的に解くことが困難な問題を安全の根拠とする公開鍵暗号・鍵配送の仕組みで、特に、量子計算機でも難しいと予想される問題
https://www.rd.ntt/research/JN202111_16202.html
Achieving IOWN/6G and Creating New Value with World-leading Technologies | NTT R&D Website
optical transport network that provides secure network services using post-quantum cryptography (PQC), and
https://www.rd.ntt/e/research/JN202405_26173.html
Report on the NTT R&D Forum 2020|NTT R&D Website
data, as well as cryptographic technology for the future. In "NTT post-quantum cryptography (S05)", we
https://www.rd.ntt/e/forum/2020/
Media Information Laboratory | NTT Communication Science Laboratories | NTT R&D Website
Foundations for Post-Quantum Cryptography. Cid Reyes (2024). Towards hash functions based on group-subgroup
https://www.rd.ntt/e/cs/team_project/media/
NTT_TRFSW_2022_E.pdf
computing models for the post-quantum era. Realizing the IOWN vision is not simply about replacing
https://www.rd.ntt/e/download/NTT_TRFSW_2022_E.pdf
BRLReports_E.pdf
Optical Materials Research ......................................... 30 ♦ Quantum Cryptography Experiment
https://www.rd.ntt/e/brl/result/activities/file/report02/BRLReports_E.pdf
量子技術イノベーションへの期待と展望 | NTT R&D Website
を中心に、量子コンピュータでも解けない暗号PQC(Post-Quantum Cryptography:耐量子計算機暗号)の開発も進んでおり、量子暗号とPQCのような現代暗号を組み合わせたハイブリッド方式
https://www.rd.ntt/research/JN202304_21549.html
メディア情報研究部|NTTコミュニケーション科学基礎研究所|NTT R&D Website
(2,R). Mathematical Foundations for Post-Quantum Cryptography. Cid Reyes (2024). Towards hash
https://www.rd.ntt/cs/team_project/media/
NTTBrl_honbun_E_260302.indd
quantum information, post-quantum cryptography ● Quantum algorithms and quantum communication protocols
https://www.rd.ntt/brl/result/activities/file/annual_report/NTTBrl_E_260310_print.pdf
Early Deployment and Popularization of IOWN Technologies as Targeted by IOWN Product Design Center | NTT R&D Website
optical-transmission devices (by using post-quantum cryptography and quantum-key distribution) and (ii
https://www.rd.ntt/e/research/JN202302_20966.html
山本 喜久|NTT R&D Website
Quantum Electronics and Laser Spectroscopy:委員長 研究業績概要 光増幅中継伝送方式、コヒーレント光伝送方式の提案と実証(1979-1983) 半導体レーザーによるスク
https://www.rd.ntt/organization/authority/008.html
Annual_report_2023_E.pdf
Research Center ● Cryptographic techniques using quantum information, post-quantum cryptography ● Quantum
https://www.rd.ntt/brl/brl/result/activities/file/annual_report/Annual_report_2023_E.pdf
Annual_report_2023_E.pdf
Research Center ● Cryptographic techniques using quantum information, post-quantum cryptography ● Quantum
https://www.rd.ntt/e/brl/result/activities/file/annual_report/Annual_report_2023_E.pdf
Media Information Laboratory Past news | NTT Communication Science Laboratories | NTT R&D Website
following two papers have been accepted to Mathematicsl Foundations for Post-Quantum Cryptography. ・Ryosuke
https://www.rd.ntt/e/cs/team_project/media/past_news.html
現代暗号の発展と量子計算機時代の暗号研究に向けて | NTT R&D Website
シュ関数に基づく構成も耐量子安全性への有望な選択肢です。 2017年から開始されたNIST(米国国立標準技術研究所)によるPost-Quantum Cryptography (PQC)Competition
https://www.rd.ntt/research/JN202305_21851.html
行列式に始まる表現論と組合せ論 | NTT R&D Website
-subgroup pair graphs. in“Mathematical Foundations for Post-Quantum Cryptography",” Springer, 2024. (19)C
https://www.rd.ntt/research/JN202407_27010.html
Annual_report_2024_E.pdf
functions Bio-Medical Informatics Research Center ● Cryptographic techniques using quantum information, post
https://www.rd.ntt/brl/brl/result/activities/file/annual_report/Annual_report_2024_E.pdf
NTTBrl_honbun_E_250225.indd
functions Bio-Medical Informatics Research Center ● Cryptographic techniques using quantum information, post
https://www.rd.ntt/brl/result/activities/file/annual_report/NTTBrl_E_250321_print.pdf
論文|NTT物性科学基礎研究所|NTT R&D Website
, D. Fattal, J. Vuckovic, G. S. Solomon, and Y. Yamamoto "Secure communication: Quantum cryptography
https://www.rd.ntt/brl/result/publications/paper_2002.html
Publications | NTT Basic Research Laboratories | NTT R&D Website
, G. S. Solomon, and Y. Yamamoto "Secure communication: Quantum cryptography with a photon turnstile
https://www.rd.ntt/e/brl/result/publications/paper_2002.html
Keynote Speech 1|Report on the NTT R&D Forum 2021|NTT R&D Website
. Security in the age of quantum computing Another use case of the All-Photonics Network is security. We
https://www.rd.ntt/e/forum/2021/keynote_1.html
メディア情報研究部 過去のニュース|NTTコミュニケーション科学基礎研究所|NTT R&D Website
/pii/S0019357724000612?via%3Dihub 2024/4 【外部採録】論文集Mathematical Foundations for Post-Quantum
https://www.rd.ntt/cs/team_project/media/past_news.html
Representation Theory and Combinatorics Arising from Determinants | NTT R&D Website
Based on Group–Subgroup Pair Graphs,” Mathematical Foundations for Post-Quantum Cryptography, Springer
https://www.rd.ntt/e/research/JN202407_27010.html
Research Activities
-qubit are obtained. This improved device will accelerate research of quantum information processing via
https://www.rd.ntt/e/brl/result/activities/file/report10/Report_2010E.pdf
Keynote speech 2|Report on the NTT R&D Forum 2020|NTT R&D Website
Quantum and Radiological Science and Technology (QST), which is committed to achieving nuclear fusion in
https://www.rd.ntt/e/forum/2020/keynote_2.html
NTT-BRL Research Activities Vol 19
the Binding Energy and Bohr Radius of a Single Hydrogenic Defect in a Semiconductor Quantum Well It is
https://www.rd.ntt/e/brl/result/activities/file/report08/BRLreport_2008E.pdf
A Mathematical World Woven by Number Theory, Algebraic Geometry, and Representation Theory | NTT R&D Website
of the Fermat conjecture, has been widely used in constructing post-quantum cryptography. Arithmetic
https://www.rd.ntt/e/research/JN202407_27001.html
基調講演2|『NTT R&D FORUM — Road to IOWN 2021』開催報告|NTT R&D Website
機でも破ることのできない次世代暗号PQC(Post Quantum Cryptography) と呼ばれる耐量子計算機暗号技術の研究が世界中で行われています。その中で、NTTが開発したPQCに適応可能
https://www.rd.ntt/forum/2021/keynote_2.html
知能創発環境研究グループ|NTTコミュニケーション科学基礎研究所|NTT R&D Website
Irie, Yoshiharu Krockenberger, Takuma Otsuka, Hiroshi Sawada, Sergey A. Nikolaev, Hena Das, "Quantum
https://www.rd.ntt/cs/team_project/icl/ls/
Learning and Intelligent Systems Research Group | NTT Communication Science Laboratories | NTT R&D Website
A. Nikolaev, Hena Das, "Quantum transport evidence of Weyl fermions in an epitaxial ferromagnetic
https://www.rd.ntt/e/cs/team_project/icl/ls/
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