基于格的后量子密钥交换研究

Ya Min Liu; Xiang Xue Li; Han Lin Liu

doi:10.13868/.j.cnki.jcr.000200

基于格的后量子密钥交换研究

Translated title of the contribution: Post-quantum key exchange from lattice

Ya Min Liu
, Xiang Xue Li^*
, Han Lin Liu

^*Corresponding author for this work

Software Engineering Institute

CAS - Institute of Information Engineering
Science and Technology on Communication Security Laboratory
Westone Cryptologic Research Center
Shanghai Jiao Tong University

Research output: Contribution to journal › Review article › peer-review

5 Scopus citations

Abstract

Cryptosystems based on classical number-theoretical assumptions, such as integer factoring and discrete logarithm, can be broken by quantum algorithms efficiently in theory, while the rapid development of quantum computers is becoming threats of classical cryptosystems in practice. Thus, the design of post-quantum cryptosystems is an important (or even urgent) research direction of cryptography, wherein the most urgent is the need for post-quantum key exchange protocols, which is a hot topic in recent years. In this paper we mainly focus on the post-quantum protocols from computational hard problems on lattices, such as LWE, ring-LWE, and module-LWE, especially the most-basic unauthenticated key exchange protocols, such as BCNS15, NewHope/NewHope-simple, Frodo, and Kyber.KE. We will introduce the key techniques, the choice of parameters, communication costs, computation efficiency and security of these protocols.

Translated title of the contribution	Post-quantum key exchange from lattice
Original language	Chinese (Traditional)
Pages (from-to)	485-497
Number of pages	13
Journal	Journal of Cryptologic Research
Volume	4
Issue number	5
DOIs	https://doi.org/10.13868/.j.cnki.jcr.000200
State	Published - 30 Oct 2017

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10.13868/.j.cnki.jcr.000200

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title = "基于格的后量子密钥交换研究",

abstract = "Cryptosystems based on classical number-theoretical assumptions, such as integer factoring and discrete logarithm, can be broken by quantum algorithms efficiently in theory, while the rapid development of quantum computers is becoming threats of classical cryptosystems in practice. Thus, the design of post-quantum cryptosystems is an important (or even urgent) research direction of cryptography, wherein the most urgent is the need for post-quantum key exchange protocols, which is a hot topic in recent years. In this paper we mainly focus on the post-quantum protocols from computational hard problems on lattices, such as LWE, ring-LWE, and module-LWE, especially the most-basic unauthenticated key exchange protocols, such as BCNS15, NewHope/NewHope-simple, Frodo, and Kyber.KE. We will introduce the key techniques, the choice of parameters, communication costs, computation efficiency and security of these protocols.",

keywords = "Key exchange, LWE, Module-LWE, Post-quantum cryptography, Ring-LWE",

author = "Liu, \{Ya Min\} and Li, \{Xiang Xue\} and Liu, \{Han Lin\}",

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doi = "10.13868/.j.cnki.jcr.000200",

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T1 - 基于格的后量子密钥交换研究

AU - Liu, Ya Min

AU - Li, Xiang Xue

AU - Liu, Han Lin

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Y1 - 2017/10/30

N2 - Cryptosystems based on classical number-theoretical assumptions, such as integer factoring and discrete logarithm, can be broken by quantum algorithms efficiently in theory, while the rapid development of quantum computers is becoming threats of classical cryptosystems in practice. Thus, the design of post-quantum cryptosystems is an important (or even urgent) research direction of cryptography, wherein the most urgent is the need for post-quantum key exchange protocols, which is a hot topic in recent years. In this paper we mainly focus on the post-quantum protocols from computational hard problems on lattices, such as LWE, ring-LWE, and module-LWE, especially the most-basic unauthenticated key exchange protocols, such as BCNS15, NewHope/NewHope-simple, Frodo, and Kyber.KE. We will introduce the key techniques, the choice of parameters, communication costs, computation efficiency and security of these protocols.

AB - Cryptosystems based on classical number-theoretical assumptions, such as integer factoring and discrete logarithm, can be broken by quantum algorithms efficiently in theory, while the rapid development of quantum computers is becoming threats of classical cryptosystems in practice. Thus, the design of post-quantum cryptosystems is an important (or even urgent) research direction of cryptography, wherein the most urgent is the need for post-quantum key exchange protocols, which is a hot topic in recent years. In this paper we mainly focus on the post-quantum protocols from computational hard problems on lattices, such as LWE, ring-LWE, and module-LWE, especially the most-basic unauthenticated key exchange protocols, such as BCNS15, NewHope/NewHope-simple, Frodo, and Kyber.KE. We will introduce the key techniques, the choice of parameters, communication costs, computation efficiency and security of these protocols.

KW - Key exchange

KW - LWE

KW - Module-LWE

KW - Post-quantum cryptography

KW - Ring-LWE

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DO - 10.13868/.j.cnki.jcr.000200

M3 - 文献综述

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EP - 497

JO - Journal of Cryptologic Research

JF - Journal of Cryptologic Research

IS - 5

ER -

基于格的后量子密钥交换研究

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