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(Short Paper) Signal Injection Attack on Time-to-Digital Converter and Its Application to Physically Unclonable Function

机译：（短论文）数模转换器的信号注入攻击及其在物理上不可克隆的功能中的应用

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Physically unclonable function (PUF) is a technology to generate a device-unique identifier using process variation. PUF enables a cryptographic key that appears only when the chip is active, providing an efficient countermeasure against reverse-engineering attacks. In this paper, we explore the data conversion that digitizes a physical quantity representing PUP's uniqueness into a numerical value as a new attack surface. We focus on time-to-digital converter (TDC) that converts time duration into a numerical value. We show the first signal injection attack on a TDC by manipulating its clock, and verify it through experiments on an off-the-shelf TDC chip. Then, we show how to leverage the attack to reveal a secret key protected by a PUF that uses a TDC for digitization.

机译：物理上不可克隆的功能（PUF）是一种使用过程变化生成设备唯一标识符的技术。 PUF启用仅在芯片处于活动状态时才会出现的加密密钥，从而提供了一种有效的对策，以应对反向工程攻击。在本文中，我们探索了将代表PUP唯一性的物理量数字化为新攻击面的数值的数据转换。我们专注于将时间长度转换为数值的时间数字转换器（TDC）。我们通过操纵TDC的时钟来显示对TDC的首次信号注入攻击，并通过在现成的TDC芯片上进行的实验进行验证。然后，我们演示如何利用攻击来揭示受使用TDC进行数字化的PUF保护的秘密密钥。

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《International workshop on security》|2020年|117-127|共11页
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Takeshi Sugawara; Tatsuya Onuma; Yang Li;
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Time-to-digital converter; Physically unclonable function; Fault injection attack; Signal injection attack;

机译：时间数字转换器;物理上不可克隆的功能;故障注入攻击;信号注入攻击;

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机译：基于石墨烯的物理不可渗透功能，可重新配置和适应机器学习攻击
2. Organic physically unclonable function on flexible substrate operable at 2 V for IoT/IoE security applications [J] . Organic Electronics . 2017,第DECa期

机译：在IoT / IoE安全应用中可在2 V电压下运行的柔性基板上的有机物理不可克隆功能
3. Analysis and Correction of Noise Injection Due to Parallel-Output-Misalignment (POM) Effects in Ring-Type Time-to-Digital Converters (TDCs) [J] . Tuoxin Wang, John W. M. Rogers, Krste Mitric IEEE Journal of Solid-State Circuits . 2019,第9期

机译：环形时间数字转换器（TDC）中并行输出未对准（POM）效应引起的噪声注入的分析和校正
4. A stochastic all-digital weak physically unclonable function for analog/mixed-signal applications [C] . Troy Bryant, Sreeja Chowdhury, Domenic Forte, Proceedings of the 2017 IEEE International Symposium on Hardware Oriented Security and Trust . 2017

机译：用于模拟/混合信号应用的随机全数字弱物理不可克隆功能
5. Novel Transistor Resistance Variation-based Physical Unclonable Functions with On-Chip Voltage-to-Digital Converter Designed for Use in Cryptographic and Authentication Applications. [D] . Chakraborty, Raj K. 2014

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6. Trusted Cameras on Mobile Devices Based on SRAM Physically Unclonable Functions [O] . Rosario Arjona, Miguel A. Prada-Delgado, Javier Arcenegui, 2018

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7. EEG Signal Discrimination using Non-linear Dynamics in the EMD Domain S. M. Shafiul Alam,S. M. Shafiul Alam,Aurangozeb, and Syed TarekShahriar Abstract—An EMD-chaos based approach is proposed todiscriminate EEG signals corresponding to healthy persons,and epileptic patients during seizure-free intervals and seizureattacks. An electroencephalogram (EEG) is first empiricallydecomposed to intrinsic mode functions (IMFs). The nonlineardynamics of these IMFs are quantified in terms of the largestLyapunov exponent (LLE) and correlation dimension (CD).This chaotic analysis in EMD domain is applied to a large groupof EEG signals corresponding to healthy persons as well asepileptic patients (both with and without seizure attacks). It isshown that the values of the obtained LLE and CD exhibitfeatures by which EEG for seizure attacks can be clearlydistinguished from other EEG signals in the EMD domain.Thus, the proposed approach may aid researchers in developingeffective techniques to predict seizure activities. Index Terms—Electroencephalogram (EEG), empiricalmode decomposition (EMD), largest Lyapunov exponent (LLE),correlation dimension (CD), epileptic seizures. The Authors are with the Electrical and Electronic EngineeringDepartment, Bangladesh University of Engineering and Technology,Dhaka-1000, Bangladesh (e-mail: imamul@eee.buet.ac.bd) PDF Cite: S. M. Shafiul Alam,S. M. Shafiul Alam,Aurangozeb, and Syed Tarek Shahriar, "EEG Signal Discrimination using Non-linear Dynamics in the EMD Domain," International Journal of Computer and Electrical Engineering vol. 4, no. 3, pp. 326-330, 2012. PREVIOUS PAPER Perception of Emotions Using Constructive Learningthrough Speech NEXT PAPER Physical Layer Impairments Aware OVPN Connection Selection Mechanisms Copyright © 2008-2013. International Association of Computer Science and Information Technology Press (IACSIT Press) [O] . S. M. Shafiul Alam, Syed TarekShahriar 2012

机译：EEG信号在EMD域S. S. Shafiul Alam，S中的非线性动力学使用非线性动力学。 M. Shafiul Alam，Aurangozeb和Syed Tarekshahriar摘要 - 基于EMD Chaos的方法，提出了对应于健康人的EEG信号，癫痫发作期间的癫痫患者和Seizureattacks。脑电图（EEG）首先被凭经上分解为内在模式功能（IMF）。这些IMF的非线性动力学在最大范围的指数（LLE）和相关尺寸（CD）方面是量化的。本域中的混沌分析应用于与健康人相对应的大型脑电图（Asepileptic患者）（两者都有癫痫发作）。因此，所获得的LLE和CD表展的价值可以从EMD领域的其他EEG信号中清晰地区分脑电图的表达展示。本拟议的方法可以帮助研究人员以预测癫痫发作的癫痫发作技术。索引术语 - 脑电图（EEG），仿真态分解（EMD），最大的Lyapunov指数（LLE），相关维度（CD），癫痫发作。作者与电气电子和电子工程公司，孟加拉国工程和技术大学，孟加拉国达卡 - 1000（电子邮件：imamul@eee.buet.ac.bd）pdf cite：s. m. shafiul Alam，s。 M. Shafiul Alam，Aurangozeb和Syed Tarek Shahriar，“EEG信号歧视在EMD领域的非线性动态，”计算机电气工程卷国际杂志。 4，不。 3，pp。326-330,2012，上一篇论文对情绪的看法，使用建设性的学习言论下一篇论文物理层障碍意识到OVPN连接选择机制版权所有©2008-2013。国际计算机科学与信息技术协会出版社（IACSIT Press）

(Short Paper) Signal Injection Attack on Time-to-Digital Converter and Its Application to Physically Unclonable Function

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