Unconditionally Secure Credit/Debit Card Chip Scheme and Physical Unclonable Function

Kish Laszlo B.; Entesari Kamran; Granqvist Claes-Goran; Kwan Chiman

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Unconditionally Secure Credit/Debit Card Chip Scheme and Physical Unclonable Function

机译：无条件安全的信用/借记卡芯片方案和物理不可渗透功能

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摘要

The statistical-physics-based Kirchhoff-law-Johnson-noise (KLJN) key exchange offers a new and simple unclonable system for credit/ debit card chip authentication and payment. The key exchange, the authentication and the communication are unconditionally secure so that neither mathematics-nor statistics-based attacks are able to crack the scheme. The ohmic connection and the short wiring lengths between the chips in the card and the terminal constitute an ideal setting for the KLJN protocol, and even its simplest versions offer unprecedented security and privacy for credit/debit card chips and applications of physical unclonable functions (PUFs).

机译：基于统计物理的Kirchhoff-Law-Johnson噪声（KLJN）关键交换提供了一种新的和简单的不可渗透系统，可用于信用/借记卡芯片认证和付款。关键交换，身份验证和通信无条件地保护，以便既不是基于数学 - 也不是基于统计的攻击能够破解方案。卡片中芯片和终端之间的欧姆连接和短接线长度构成了KLJN协议的理想设置，甚至其最简单的版本甚至为信用卡/借记卡芯片和物理不可分类功能的应用提供了前所未有的安全性和隐私（PUFS ）。

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来源
《Fluctuation and Noise Letters: FNL: An Interdisciplinary Scientific Journal on Random Processes in Physical, Biological and Technological Systems》 |2017年第1期|共8页
作者
Kish Laszlo B.; Entesari Kamran; Granqvist Claes-Goran; Kwan Chiman;
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作者单位

Texas A&

M Univ Dept Elect &

Comp Engn College Stn TX 77843 USA;

Texas A&

M Univ Dept Elect &

Comp Engn College Stn TX 77843 USA;

Uppsala Univ Dept Engn Sci Angstrom Lab POB 534 SE-75121 Uppsala Sweden;

Signal Proc Inc 9605 Med Ctr Dr Rockville MD 20850 USA;

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原文格式 PDF
正文语种 eng
中图分类运筹学;
关键词
KLJN key exchange; card protocol; PUF; unconditional security;

机译：kljn密钥交换;卡协议;puf;无条件安全;

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专利

1. Unconditionally Secure Credit/Debit Card Chip Scheme and Physical Unclonable Function [J] . Kish Laszlo B., Entesari Kamran, Granqvist Claes-Goran, Fluctuation and Noise Letters: FNL: An Interdisciplinary Scientific Journal on Random Processes in Physical, Biological and Technological Systems . 2017,第1期

机译：无条件安全的信用/借记卡芯片方案和物理不可渗透功能
2. Crypto primitive of MOCVD MoS2 transistors for highly secured physical unclonable functions [J] . Bangjie Shao, Tsz Hin Choy, Feichi Zhou, 纳米研究（英文版） . 2021,第006期

机译：用于高度安全的物理不可渗透功能的MOCVD MOS2晶体管的加密原语
3. Static Physically Unclonable Functions for Secure Chip Identification With 1.9–5.8% Native Bit Instability at 0.6–1 V and 15 fJ/bit in 65 nm [J] . Anastacia B. Alvarez, Wenfeng Zhao, Massimo Alioto IEEE Journal of Solid-State Circuits . 2016,第3期

机译：静态物理上无法克隆的功能，可确保芯片识别安全，在0.6–1 V和65 nm的15 fJ / bit时具有1.9–5.8％的固有位不稳定性
4. Physically Unclonable Function for Secure Key Generation with a Key Error Rate of 2E-38 in 45nm Smart-Card Chips [C] . Bohdan Karpinskyy, Yongki Lee, Yunhyeok Choi, IEEE International Solid-State Circuits Conference . 2016

机译：身体上不可渗透功能，用于45nm智能卡芯片中的2E-38的密钥误差率的安全键生成
5. Reliable, Secure, Efficient Physical Unclonable Functions. [D] . Bhargava, Mudit. 2013

机译：可靠，安全，高效的物理无克隆功能。
6. Secure and Reliable Key Agreement with Physical Unclonable Functions [O] . Onur Günlü, Tasnad Kernetzky, Onurcan İşcan, 2018

机译：使用物理不可分配的功能安全可靠的密钥协议
7. Unconditionally secure credit/debit card chip scheme and physical unclonable function [O] . Kish, Laszlo Bela, Entesari, Kamran, Granqvist, Claes-Goran, 2016

机译：无条件保障信用卡/借记卡芯片方案和物理方案不可克隆的功能

Unconditionally Secure Credit/Debit Card Chip Scheme and Physical Unclonable Function

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