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Ievgen Kabin
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2020 – today
- 2024
- [j9]Marcin Aftowicz, Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Non-Profiled Unsupervised Horizontal Iterative Attack against Hardware Elliptic Curve Scalar Multiplication Using Machine Learning. Future Internet 16(2): 45 (2024) - [j8]Marcin Aftowicz, Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Advantages of unsupervised learning analysis methods in single-trace SCA attacks. Microprocess. Microsystems 105: 104994 (2024) - [c58]Ievgen Kabin, Zoya Dyka, Alkistis Aikaterini Sigourou, Peter Langendoerfer:
Static Power Consumption as a New Side-Channel Analysis Threat to Elliptic Curve Cryptography Implementations. CSR 2024: 884-889 - [c57]Ievgen Kabin, Jan Schäffner, Alkistis Aikaterini Sigourou, Dmytro Petryk, Zoya Dyka, Dominik Klein, Sven Freud, Peter Langendoerfer:
Stealth Attacks on PCBs: An Experimental Plausibility Analysis. CSR 2024: 905-912 - [c56]Ievgen Kabin, Peter Langendoerfer, Zoya Dyka:
Exploiting Static Power Consumption in Side-Channel Analysis. LATS 2024: 1-4 - [c55]Zoya Dyka, Ievgen Kabin, Marcin Brzozowski, Goran Panic, Cristiano Calligaro, Milos Krstic, Peter Langendoerfer:
On the Influence of Cell Libraries and Other Parameters to SCA Resistance of Crypto IP Cores. MECO 2024: 1-5 - [c54]Dmytro Petryk, Ievgen Kabin, Peter Langendörfer, Zoya Dyka:
On the Importance of Reproducibility of Experimental Results Especially in the Domain of Security. MECO 2024: 1-5 - [i23]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Distributed Artificial Intelligence as a Means to Achieve Self-X-Functions for Increasing Resilience: the First Steps. CoRR abs/2404.06159 (2024) - [i22]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Oleksandr O. Sudakov, Andrii Cherninskyi, Marcin Brzozowski, Peter Langendoerfer:
Intelligence and Motion Models of Continuum Robots: an Overview. CoRR abs/2404.06171 (2024) - [i21]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Resilient Movement Planning for Continuum Robots. CoRR abs/2404.06178 (2024) - [i20]Dmytro Petryk, Zoya Dyka, Ievgen Kabin, Anselm Breitenreiter, Jan Schäffner, Milos Krstic:
Laser Fault Injection Attacks against Radiation Tolerant TMR Registers. CoRR abs/2407.06751 (2024) - [i19]Dmytro Petryk, Zoya Dyka, Milos Krstic, Jan Belohoubek, Petr Fiser, Frantisek Steiner, Tomás Blecha, Peter Langendörfer, Ievgen Kabin:
On the Influence of the Laser Illumination on the Logic Cells Current Consumption. CoRR abs/2407.06758 (2024) - [i18]Dmytro Petryk, Ievgen Kabin, Peter Langendörfer, Zoya Dyka:
On the Importance of Reproducibility of Experimental Results Especially in the Domain of Security. CoRR abs/2407.06760 (2024) - [i17]Sze Hei Li, Zoya Dyka, Alkistis Aikaterini Sigourou, Peter Langendoerfer, Ievgen Kabin:
Practical Investigation on the Distinguishability of Longa's Atomic Patterns. CoRR abs/2409.11868 (2024) - 2023
- [b1]Ievgen Kabin:
Horizontal address-bit SCA attacks against ECC and appropriate countermeasures. Brandenburg University of Technology, Cottbus, Germany, BTU Cottbus - Senftenberg 2023 - [j7]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Oleksandr O. Sudakov, Andrii Cherninskyi, Marcin Brzozowski, Peter Langendoerfer:
Intelligence and Motion Models of Continuum Robots: An Overview. IEEE Access 11: 60988-61003 (2023) - [c53]Soundes Marzougui, Ievgen Kabin, Juliane Krämer, Thomas Aulbach, Jean-Pierre Seifert:
On the Feasibility of Single-Trace Attacks on the Gaussian Sampler Using a CDT. COSADE 2023: 149-169 - [c52]Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Randomized Addressing Countermeasures are Inefficient Against Address-Bit SCA. CSR 2023: 580-585 - [c51]Marcin Aftowicz, Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Non-Profiled Semi-Supervised Horizontal Attack Against Elliptic Curve Scalar Multiplication Using Support Vector Machines. DSD 2023: 708-713 - [c50]Ievgen Kabin, Peter Langendoerfer, Zoya Dyka:
Vulnerability of Atomic Patterns to Simple SCA. EWDTS 2023: 1-4 - [c49]Dmytro Petryk, Zoya Dyka, Milos Krstic, Jan Belohoubek, Petr Fiser, Frantisek Steiner, Tomás Blecha, Peter Langendörfer, Ievgen Kabin:
On the Influence of the Laser Illumination on the Logic Cells Current Consumption : First measurement results. ICECS 2023: 1-6 - [c48]Alkistis Aikaterini Sigourou, Ievgen Kabin, Peter Langendörfer, Nicolas Sklavos, Zoya Dyka:
Successful Simple Side Channel Analysis: Vulnerability of an atomic pattern $kP$ algorithm implemented with a constant time crypto library to simple electromagnetic analysis attacks. MECO 2023: 1-6 - 2022
- [j6]Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Atomicity and Regularity Principles Do Not Ensure Full Resistance of ECC Designs against Single-Trace Attacks. Sensors 22(8): 3083 (2022) - [c47]Zoya Dyka, Ievgen Kabin, Marcin Brzozowski, Goran Panic, Cristiano Calligaro, Milos Krstic, Peter Langendoerfer:
On the SCA Resistance of Crypto IP Cores. LATS 2022: 1-2 - [c46]Dmytro Petryk, Zoya Dyka, Ievgen Kabin, Anselm Breitenreiter, Jan Schäffner, Milos Krstic:
Laser Fault Injection Attacks against Radiation Tolerant TMR Registers. LATS 2022: 1-2 - [c45]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Distributed Artificial Intelligence as a Means to Achieve Self-X-Functions for Increasing Resilience: the First Steps. MECO 2022: 1-6 - [i16]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendoerfer:
Unified Field Multiplier for ECC: Inherent Resistance against Horizontal SCA Attacks. CoRR abs/2201.01147 (2022) - [i15]Ievgen Kabin, Alejandro Sosa, Zoya Dyka, Dan Klann, Peter Langendoerfer:
On the Influence of the FPGA Compiler Optimization Options on the Success of the Horizontal Attack. CoRR abs/2201.01153 (2022) - [i14]Ievgen Kabin, Zoya Dyka, Dan Klann, Nele Mentens, Lejla Batina, Peter Langendoerfer:
Breaking a fully Balanced ASIC Coprocessor Implementing Complete Addition Formulas on Weierstrass Elliptic Curves. CoRR abs/2201.01158 (2022) - [i13]R. Kovtun, Sergiy Radchenko, Andrii Netreba, Oleksandr O. Sudakov, Roman Natarov, Zoya Dyka, Ievgen Kabin, Peter Langendörfer:
Exploiting EEG Signals for Eye Motion Tracking. CoRR abs/2201.01181 (2022) - [i12]Roman Natarov, Oleksandr O. Sudakov, Zoya Dyka, Ievgen Kabin, Oleksandr Maksymyuk, Olena Iegorova, Oleg Krishtal, Peter Langendörfer:
Resilience Aspects in Distributed Wireless Electroencephalographic Sampling. CoRR abs/2201.01272 (2022) - [i11]Marcin Aftowicz, Ievgen Kabin, Dan Klann, Yauhen Varabei, Zoya Dyka, Peter Langendoerfer:
Horizontal SCA Attacks against kP Algorithm Using K-Means and PCA. CoRR abs/2201.01711 (2022) - [i10]Marcin Aftowicz, Ievgen Kabin, Zoya Dyka, Peter Langendoerfer:
Clustering versus Statistical Analysis for SCA: when Machine Learning is Better. CoRR abs/2201.01717 (2022) - [i9]Zoya Dyka, Dan Kreiser, Ievgen Kabin, Peter Langendoerfer:
Flexible FPGA ECDSA Design with a Field Multiplier Inherently Resistant against HCCA. CoRR abs/2201.02007 (2022) - [i8]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendoerfer:
Methods for Increasing the Resistance of Cryptographic Designs against Horizontal DPA Attacks. CoRR abs/2201.02391 (2022) - [i7]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendoerfer:
Horizontal DPA Attacks against ECC: Impact of Implemented Field Multiplication Formula. CoRR abs/2201.02866 (2022) - [i6]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendoerfer:
Horizontal Attacks against ECC: from Simulations to ASIC. CoRR abs/2201.02868 (2022) - [i5]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Michael Kuba, Peter Langendoerfer:
Octopuses: biological facts and technical solutions. CoRR abs/2201.07885 (2022) - [i4]Ievgen Kabin, Zoya Dyka, Dan Klann, Jan Schäffner, Peter Langendoerfer:
On the Complexity of Attacking Elliptic Curve Based Authentication Chips. CoRR abs/2201.09631 (2022) - 2021
- [j5]Ievgen Kabin, Zoya Dyka, Dan Klann, Marcin Aftowicz, Peter Langendoerfer:
Resistance of the Montgomery Ladder Against Simple SCA: Theory and Practice. J. Electron. Test. 37(3): 289-303 (2021) - [j4]Ievgen Kabin, Zoya Dyka, Dan Klann, Jan Schäffner, Peter Langendörfer:
On the Complexity of Attacking Commercial Authentication Products. Microprocess. Microsystems 80: 103480 (2021) - [j3]Dmytro Petryk, Zoya Dyka, Eduardo Pérez, Ievgen Kabin, Jens Katzer, Jan Schäffner, Peter Langendörfer:
Sensitivity of HfO2-based RRAM Cells to Laser Irradiation. Microprocess. Microsystems 87: 104376 (2021) - [c44]Ievgen Kabin, Dan Klann, Zoya Dyka, Peter Langendoerfer:
Fast Dual-Field ECDSA Accelerator with Increased Resistance against Horizontal SCA Attacks. CSR 2021: 273-280 - [c43]Alejandro Sosa, Zoya Dyka, Ievgen Kabin, Peter Langendörfer:
Simulation of Electromagnetic Emanation of Cryptographic ICs: Tools, Methods, Problems. EWDTS 2021: 1-5 - [c42]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendoerfer:
EC Scalar Multiplication: Successful Simple Address-Bit SCA Attack against Atomic Patterns. LATS 2021: 1-2 - [c41]Marcin Aftowicz, Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Clustering versus Statistical Analysis for SCA: when Machine Learning is Better. MECO 2021: 1-5 - [c40]Zoya Dyka, Ievgen Kabin, Dan Klann, Peter Langendörfer:
Multiplier as a Mean for Reducing Vulnerability of Atomic Patterns to Horizontal Address-Bit Attacks. MECO 2021: 1-6 - [c39]Oxana Shamilyan, Ievgen Kabin, Zoya Dyka, Michael Kuba, Peter Langendörfer:
Octopuses: biological facts and technical solutions. MECO 2021: 1-7 - [c38]Ievgen Kabin, Zoya Dyka, Dan Klann, Marcin Aftowicz, Peter Langendörfer:
FFT based Horizontal SCA Attack against ECC. NTMS 2021: 1-5 - [i3]Dmytro Petryk, Zoya Dyka, Eduardo Pérez, Mamathamba Kalishettyhalli Mahadevaiaha, Ievgen Kabin, Christian Wenger, Peter Langendörfer:
Evaluation of the Sensitivity of RRAM Cells to Optical Fault Injection Attacks. CoRR abs/2103.12435 (2021) - [i2]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
EC Scalar Multiplication: Successful Simple Address Bit SCA Attack against Atomic Patterns. CoRR abs/2106.12321 (2021) - 2020
- [j2]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
Methods increasing inherent resistance of ECC designs against horizontal attacks. Integr. 73: 50-67 (2020) - [c37]Dmytro Petryk, Zoya Dyka, Eduardo Pérez, Mamathamba Kalishettyhalli Mahadevaiaha, Ievgen Kabin, Christian Wenger, Peter Langendörfer:
Evaluation of the Sensitivity of RRAM Cells to Optical Fault Injection Attacks. DSD 2020: 238-245 - [c36]Ievgen Kabin, Zoya Dyka, Dan Klann, Nele Mentens, Lejla Batina, Peter Langendörfer:
Breaking a fully Balanced ASIC Coprocessor Implementing Complete Addition Formulas on Weierstrass Elliptic Curves. DSD 2020: 270-276 - [c35]Dan Klann, Marcin Aftowicz, Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Integration and Implementation of four different Elliptic Curves in a single high-speed Design considering SCA. DTIS 2020: 1-2 - [c34]R. Kovtun, Sergiy Radchenko, Andrii Netreba, Olexandr O. Sudakov, Roman Natarov, Zoya Dyka, Ievgen Kabin, Peter Langendörfer:
Exploiting EEG Signals for Eye Motion Tracking. EWDTS 2020: 1-5 - [c33]Ievgen Kabin, Zoya Dyka, Marcin Aftowicz, Dan Klann, Peter Langendörfer:
Resistance of the Montgomery kP Algorithm against Simple SCA: Theory and Practice. LATS 2020: 1-6 - [c32]Marcin Aftowicz, Ievgen Kabin, Dan Klann, Yauhen Varabei, Zoya Dyka, Peter Langendörfer:
Horizontal SCA Attacks against $kP$ Algorithm Using K-Means and PCA. MECO 2020: 1-7 - [c31]Zoya Dyka, Elisabeth Vogel, Ievgen Kabin, Dan Klann, Oxana Shamilyan, Peter Langendörfer:
No Resilience without Security. MECO 2020: 1-5 - [c30]Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Automated Simple Analysis Attack. MECO 2020: 1-4 - [c29]Roman Natarov, Oleksandr O. Sudakov, Zoya Dyka, Ievgen Kabin, Oleksandr Maksymyuk, Olena Iegorova, Oleg Krishtal, Peter Langendörfer:
Resilience Aspects in Distributed Wireless Electroencephalographic Sampling. MECO 2020: 1-7
2010 – 2019
- 2019
- [c28]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
Horizontal DPA Attacks against ECC: Impact of Implemented Field Multiplication Formula. DTIS 2019: 1-6 - [c27]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
Horizontal Attacks Against ECC: From Simulations to ASIC. IOSec/MSTEC/FINSEC@ESORICS 2019: 64-76 - [c26]Zoya Dyka, Ievgen Kabin, Dan Klann, Frank Vater, Peter Langendörfer:
Caution: GALS-ification as a Means against SCA Attacks. EWDTS 2019: 1-6 - [c25]Zoya Dyka, Ievgen Kabin, Peter Langendörfer:
Researching Resilience a Holistic Approach. EWDTS 2019: 1-4 - [c24]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
Fast and Secure Unified Field Multiplier for ECC Based on the 4-Segment Karatsuba Multiplication. EWDTS 2019: 1-6 - [c23]Marcin Aftowicz, Dan Klann, Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Evaluation of the ECDSA IHP Hardware Accelerator. Krypto-Tag 2019 - [c22]Ievgen Kabin, Marcin Aftowicz, Dan Klann, Yauhen Varabei, Zoya Dyka, Peter Langendörfer:
Horizontal SCA Attack using Machine Learning Algorithms. Krypto-Tag 2019 - [c21]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
ECC Based Secure Authentication Solutions. Krypto-Tag 2019 - [c20]Roman Natarov, Yauhen Varabei, Ievgen Kabin, Zoya Dyka, Peter Langendörfer:
Edge computing devices assessment for cryptography and biomedical signal analysis. Krypto-Tag 2019 - [c19]Alejandro Sosa, Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
On the Impact of the Sampling Rate on the Success of Horizontal DEMA Attack. Krypto-Tag 2019 - [c18]Yauhen Varabei, Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
Intelligent Clustering as a Means to Improve K-means Based Horizontal Attacks. Krypto-Tag 2019 - [c17]Zoya Dyka, Elisabeth Vogel, Ievgen Kabin, Marcin Aftowicz, Dan Klann, Peter Langendörfer:
Resilience more than the Sum of Security and Dependability: Cognition is what makes the Difference. MECO 2019: 1-3 - [c16]Ievgen Kabin, Marcin Aftowicz, Yauhen Varabei, Dan Klann, Zoya Dyka, Peter Langendörfer:
Horizontal Attacks using K-Means: Comparison with Traditional Analysis Methods. NTMS 2019: 1-7 - [c15]Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
On the Complexity of Attacking Commercial Authentication Products. NTMS 2019: 1-6 - [c14]Yauhen Varabei, Ievgen Kabin, Zoya Dyka, Dan Klann, Peter Langendörfer:
Intelligent Clustering as a Means to Improve K-means Based Horizontal Attacks. PIMRC Workshops 2019: 1-6 - [c13]Ievgen Kabin, Alejandro Sosa, Zoya Dyka, Dan Klann, Peter Langendörfer:
On the Influence of the FPGA Compiler Optimization Options on the Success of the Horizontal Attack. ReConFig 2019: 1-5 - 2018
- [j1]Dan Kreiser, Zoya Dyka, Stephan Kornemann, Christian Wittke, Ievgen Kabin, Oliver Stecklina, Peter Langendörfer:
On Wireless Channel Parameters for Key Generation in Industrial Environments. IEEE Access 6: 79010-79025 (2018) - [c12]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Unified field multiplier for ECC: Inherent resistance against horizontal SCA attacks. DTIS 2018: 1-4 - [c11]Dan Kreiser, Zoya Dyka, Ievgen Kabin, Peter Langendörfer:
Low-energy key exchange for automation systems. DTIS 2018: 1-5 - [c10]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Comments On: Constant Time Modular Inversion. Krypto-Tag 2018 - [c9]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Low-Cost Countermeasure against Horizontal Bus and Address-Bit SCA. Krypto-Tag 2018 - [c8]Dan Kreiser, Zoya Dyka, Ievgen Kabin, Peter Langendörfer:
HCCA against Montgomery kP Design. Krypto-Tag 2018 - [c7]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Horizontal Address-Bit DEMA against ECDSA. NTMS 2018: 1-7 - [c6]Zoya Dyka, Dan Kreiser, Ievgen Kabin, Peter Langendörfer:
Flexible FPGA ECDSA Design with a Field Multiplier Inherently Resistant against HCCA. ReConFig 2018: 1-6 - [c5]Ievgen Kabin, Dan Kreiser, Zoya Dyka, Peter Langendörfer:
FPGA Implementation of ECC: Low-Cost Countermeasure against Horizontal Bus and Address-Bit SCA. ReConFig 2018: 1-7 - [i1]Christian Wittke, Ievgen Kabin, Dan Klann, Zoya Dyka, Anton Datsuk, Peter Langendörfer:
Horizontal DEMA Attack as the Criterion to Select the Best Suitable EM Probe. IACR Cryptol. ePrint Arch. 2018: 1181 (2018) - 2017
- [c4]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Evaluation of resistance of ECC designs protected by different randomization countermeasures against horizontal DPA attacks. EWDTS 2017: 1-7 - [c3]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Methods for Increasing the Resistance of Cryptographic Designs Against Horizontal DPA Attacks. ICICS 2017: 225-235 - [c2]Ievgen Kabin, Zoya Dyka, Dan Kreiser, Peter Langendörfer:
Horizontal address-bit DPA against montgomery kP implementation. ReConFig 2017: 1-8 - 2016
- [c1]Zoya Dyka, Estuardo Alpirez Bock, Ievgen Kabin, Peter Langendörfer:
Inherent Resistance of Efficient ECC Designs against SCA Attacks. NTMS 2016: 1-5
Coauthor Index
aka: Peter Langendoerfer
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