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抗量子公钥密码技术的现状、挑战与应对OA

Research Status,Challenges,and Future Development of Post-Quantum Cryptography

中文摘要英文摘要

密码作为保障国家信息安全、数字经济健康发展的核心战略资源,是维护关键基础设施、政务数据、金融交易等领域安全的核心防线.当前,量子计算技术快速发展对现有公钥密码体系带来颠覆性挑战,对全球信息安全格局构成致命威胁,开展抗量子公钥密码技术的研究与部署必要且紧迫.本文详细阐述了抗量子公钥密码中格、编码、杂凑签名、多变量、同源5条主流技术路线的发展现状,并发现5条技术路线各有侧重但都处于持续迭代与验证阶段.研究发现,抗量子公钥密码技术发展存在的主要问题包括性能瓶颈、生态兼容性差以及安全评估困难等,我国抗量子公钥密码发展面临理论研究基础薄弱、标准制定滞后、产业生态不完善以及人才短缺等挑战.为保障我国在量子计算时代的信息安全,研究建议,加强基础研究、提升自主创新能力,加速标准制定、提升国际话语权,完善产业生态、推动抗量子分阶段迁移,强化人才培养,打造专业人才队伍,助力我国构建起多维度、强韧性的数字安全新生态,推动我国网络空间安全能力实现从经典安全向量子安全的能力跃升.

As an important strategic resource for safeguarding national information security and the healthy development of digital economy,cryptography is the cornerstone of protecting the security of critical infrastructure,government affairs data,financial transactions,and other fields.Currently,the rapid development of quantum computing poses a disruptive challenge to the existing public-key cryptosystems and a fatal threat to the global information security landscape,making research on post-quantum public-key cryptography(PQC)both necessary and urgent.This study expounds on the current development status of five mainstream technical routes in PQC:lattice-based,code-based,hash-based signature,multivariate,and isogeny-based cryptography,and finds that each of these five routes has its own focus yet is in a stage of continuous iteration and verification.The study identifies the existing issues of the development of PQC including performance bottlenecks,insufficient ecological compatibility,and difficulties in security evaluation.Meanwhile,the development of PQC in China is confronted with challenges such as a weak foundation in theoretical research,lagging standards formulation,an imperfect industrial ecosystem,and a shortage of professional talents.To safeguard China's information security in the quantum computing era,we propose the following suggestions:strengthening basic research to enhance the independent innovation capability of the industry;accelerating standards formulation to boost international discourse power;improving the industrial ecosystem to promote the phased migration to PQC;intensifying talent cultivation to build a professional talent team.These measures are expected to help China construct a multi-dimensional and highly resilient digital security ecosystem,and drive the leap-forward development of China's cyberspace security capability from classical to quantum security.

朱桂桢;吴江;范爱兵;施焕生;李鸿利;于宗文

数据通信科学技术研究所,北京 100191数据通信科学技术研究所,北京 100191数据通信科学技术研究所,北京 100191数据通信科学技术研究所,北京 100191数据通信科学技术研究所,北京 100191数据通信科学技术研究所,北京 100191

信息技术与安全科学

抗量子公钥密码编码杂凑签名多变量同源

post-quantum cryptographylattice-based cryptographycode-based cryptographyhash-based signaturemultivariate cryptographyisogeny-based cryptography

《中国工程科学》 2026 (2)

137-146,10

中国工程院咨询项目"网络空间安全新技术新应用风险研究"(2023-JB-13) Chinese Academy of Engineering project"Research on Risks of New Technologies and Applications in Cyberspace Security"(2023-JB-13)

10.15302/J-SSCAE-2025.11.014

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