Efficient Identity-Based Public Auditing Scheme for Cloud Storage from Lattice Assumption

机译：基于高效的基于身份的云存储假设的公共审计计划

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In this paper, we propose a post-quantum secure cloud storage system supporting privacy-preserving public auditing scheme from lattice assumption. In our public auditing scheme, we introduce a third party auditor (TPA), which can efficiently audit the cloud storage data, bringing no additional on-line burden to the users. We utilize preimage sample able functions to realize our lattice-based signature, thus can be considered as random masking to make sure the TPA can not recover the primitive data blocks of the users. Based on the inhomogeneous small integer solution assumption (ISIS), our public auditing scheme is proved secure against the data lost attacks and tamper attacks from the cloud service providers. To the best of our knowledge, we construct the first identity-based public auditing for secure cloud storage from lattice assumption, which is an interesting stepping stone in the post-quantum cryptographic communication.

机译：在本文中，我们提出了一种支持晶格假设的隐私保留公共审计方案的量级安全云存储系统。在我们的公开审计计划中，我们介绍了一个第三方审计员（TPA），可以有效地审核云存储数据，为用户提供额外的额外的线上负担。我们利用Premage示例能够实现基于格子的签名，从而可以被认为是随机掩蔽，以确保TPA无法恢复用户的原始数据块。根据不均匀的小整数解决方案假设（ISIS），我们的公共审计方案被证明是对云服务提供商的数据丢失和篡改攻击的安全。据我们所知，我们构建了从格子假设的安全云存储的第一个基于身份的公共审计，这是昆腾加密通信中的一个有趣的踏脚石。

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《IEEE International Conference on Computational Science and Engineering;IEEE International Conference on Ubiquitous Computing and Communications;International Conference on Frontier of Computer Science and Technology;International Symposium on Pervasive Systems, Algorithms, and Networks》|2014年||共8页
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Xiaojun Zhang; Chunxiang Xu;
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中图分类计算技术、计算机技术;
关键词
auditing; cloud computing; cryptography; data privacy; storage management; ISIS; TPA; cloud service provider; cloud storage data; data lost attack; identity-based public auditing scheme; inhomogeneous small integer solution assumption; lattice assumption; lattice-based signature; post-quantum cryptographic communication; post-quantum secure cloud storage system; primitive data block; privacy-preserving public auditing scheme; random masking; tamper attack; third party auditor; Cloud computing; Cryptography; Equations; Lattices; Quantum computing; Servers; cloud storage; lattice-based cryptography; post-quantum cryptography; public auditing;

机译：审计;云计算;数据隐私;存储管理;ISIS;TPA;云服务提供商;云存储数据;数据丢失攻击;基于身份的公共审计方案;不均匀的小整数解决方案假设;格子假设;基于格子的签名;Quartum Cryptoction Compicence;原始数据块;原始数据块;保留公共审计计划;随机掩蔽;篡改攻击;第三方审计员;云计算;加密;方程式;格子;量子计算;云计算;云存储;基于格子的密码学;后量子密码学;公开审计;

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1. Identity-based key-exposure resilient cloud storage public auditing scheme from lattices [J] . Zhang Xiaojun, Wang Huaxiong, Xu Chunxiang Information Sciences: An International Journal . 2019,第期

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2. Enhancing cloud storage security against a new replay attack with an efficient public auditing scheme [J] . Fan Kuan, Liu Mingxi, Dong Guofang, Journal of supercomputing . 2020,第7期

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3. An efficient certificateless public auditing scheme in cloud storage [J] . Gao Gaimei, Fei Hongxia, Qin Zefeng Concurrency, practice and experience . 2020,第24期

机译：云存储中有效的无证公共审计计划
4. Efficient Identity-Based Public Auditing Scheme for Cloud Storage from Lattice Assumption [C] . Xiaojun Zhang, Chunxiang Xu IEEE International Conference on Computational Science and Engineering;IEEE International Conference on Ubiquitous Computing and Communications;International Conference on Frontier of Computer Science and Technology;International Symposium on Pervasive Systems, Algorithms, and Networks . 2014

机译：基于格假设的基于身份的高效云存储公共审计方案
5. Kurma: Efficient and Secure Multi-Cloud Storage Gateways for Network-Attached Storage [D] . Chen, Ming. 2017

机译：Kurma：用于网络附加存储的高效且安全的多云存储网关
6. Genuine and Secure Identity-Based Public Audit for the Stored Data in Healthcare Cloud [O] . Jianhong Zhang, Zhibin Sun, Jian Mao 2018

机译：基于真实和安全的基于身份的公共审计用于医疗保健云中的存储数据
7. Identity-Based Public Auditing Scheme for Cloud Storage with Strong Key-Exposure Resilience [O] . S. Mary Virgil Nithya, V. Rhymend Uthariaraj 2020

机译：具有强烈关键曝光弹性的云存储的基于身份的公共审计计划

Efficient Identity-Based Public Auditing Scheme for Cloud Storage from Lattice Assumption

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