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Róbert Lórencz
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2020 – today
- 2024
- [j13]Tomás Rabas, Jirí Bucek, Róbert Lórencz:
Single-Trace Side-Channel Attacks on NTRU Implementation. SN Comput. Sci. 5(2): 239 (2024) - [j12]Olha Jurecková, Martin Jurecek, Mark Stamp, Fabio Di Troia, Róbert Lórencz:
Classification and online clustering of zero-day malware. J. Comput. Virol. Hacking Tech. 20(4): 579-592 (2024) - [c30]Ondrej Stanícek, Filip Kodýtek, Róbert Lórencz:
Counter Power Leakage for Frequency Extraction of Ring Oscillators in ROPUF. DSD 2024: 26-32 - 2023
- [c29]Tomás Rabas, Jirí Bucek, Róbert Lórencz:
Single-Trace Attack on NTRU Decryption with Machine Learning and Template Profiling. DSD 2023: 124-129 - [c28]Tomás Rabas, Jirí Bucek, Róbert Lórencz:
SPA Attack on NTRU Protected Implementation with Sparse Representation of Private Key. ICISSP 2023: 135-143 - [c27]Josef Kokes, Róbert Lórencz:
On the Use of Multiple Approximations in the Linear Cryptanalysis of Baby Rijndael. ICISSP 2023: 174-179 - [i2]Olha Jurecková, Martin Jurecek, Róbert Lórencz:
Classification and Online Clustering of Zero-Day Malware. CoRR abs/2305.00605 (2023) - 2022
- [j11]Filip Kodýtek, Róbert Lórencz, Jirí Bucek:
Three counter value based ROPUFs on FPGA and their properties. Microprocess. Microsystems 88: 104375 (2022) - [j10]Josef Kokes, Jonatan Matejka, Róbert Lórencz:
Automatic Detection and Decryption of AES Using Dynamic Analysis. SN Comput. Sci. 3(5): 338 (2022) - [c26]Marek Bielik, Martin Jurecek, Olha Jurecková, Róbert Lórencz:
Yet Another Algebraic Cryptanalysis of Small Scale Variants of AES. SECRYPT 2022: 415-427 - [c25]Tomás Rabas, Róbert Lórencz, Jirí Bucek:
Verification of PUF-based IoT Protocols with AVISPA and Scyther. SECRYPT 2022: 627-635 - [i1]Marek Bielik, Martin Jurecek, Olha Jurecková, Róbert Lórencz:
Yet Another Algebraic Cryptanalysis of Small Scale Variants of AES. IACR Cryptol. ePrint Arch. 2022: 695 (2022) - 2021
- [j9]Martin Jurecek, Róbert Lórencz:
Application of Distance Metric Learning to Automated Malware Detection. IEEE Access 9: 96151-96165 (2021) - [c24]Josef Kokes, Jonatan Matejka, Róbert Lórencz:
Automatic Detection and Decryption of AES by Monitoring S-Box Access. ICISSP 2021: 172-180 - [c23]Lukás Kotlaba, Simona Buchovecká, Róbert Lórencz:
Active Directory Kerberoasting Attack: Detection using Machine Learning Techniques. ICISSP 2021: 376-383 - [c22]Martin Jurecek, Olha Jurecková, Róbert Lórencz:
Improving Classification of Malware Families using Learning a Distance Metric. ICISSP 2021: 643-652 - 2020
- [c21]Filip Kodýtek, Róbert Lórencz, Jirí Bucek:
Comparison of three counter value based ROPUFs on FPGA. DSD 2020: 205-212 - [c20]Simona Buchovecká, Róbert Lórencz, Jirí Bucek, Filip Kodýtek:
Lightweight Authentication and Secure Communication Suitable for IoT Devices. ICISSP 2020: 75-83 - [c19]Simona Buchovecká, Róbert Lórencz, Jirí Bucek, Filip Kodýtek:
Symmetric and Asymmetric Schemes for Lightweight Secure Communication. ICISSP (Revised Selected Papers) 2020: 97-114 - [c18]Lukás Kotlaba, Simona Buchovecká, Róbert Lórencz:
Active Directory Kerberoasting Attack: Monitoring and Detection Techniques. ICISSP 2020: 432-439 - [c17]Martin Jurecek, Róbert Lórencz:
Distance Metric Learning using Particle Swarm Optimization to Improve Static Malware Detection. ICISSP 2020: 725-732
2010 – 2019
- 2019
- [c16]Martin Jurecek, Jirí Bucek, Róbert Lórencz:
Side-Channel Attack on the A5/1 Stream Cipher. DSD 2019: 633-638 - 2018
- [j8]Martin Jurecek, Róbert Lórencz:
Malware Detection Using a Heterogeneous Distance Function. Comput. Informatics 37(3): 759-780 (2018) - 2017
- [j7]Simona Buchovecká, Róbert Lórencz, Filip Kodýtek, Jirí Bucek:
True random number generator based on ring oscillator PUF circuit. Microprocess. Microsystems 53: 33-41 (2017) - [j6]Jirí Bucek, Pavel Kubalík, Róbert Lórencz, Tomás Zahradnický:
Design of a Residue Number System Based Linear System Solver in Hardware. J. Signal Process. Syst. 87(3): 343-356 (2017) - 2016
- [j5]Ivan Simecek, Richard Fritsch, Daniel Langr, Róbert Lórencz:
Parallel Solver of Large Systems of Linear Inequalities Using Fourier-Motzkin Elimination. Comput. Informatics 35(6): 1307-1337 (2016) - [j4]Filip Kodýtek, Róbert Lórencz:
Proposal and Properties of Ring Oscillator-Based PUF on FPGA. J. Circuits Syst. Comput. 25(3): 1640016:1-1640016:17 (2016) - [j3]Filip Kodýtek, Róbert Lórencz, Jirí Bucek:
Improved ring oscillator PUF on FPGA and its properties. Microprocess. Microsystems 47: 55-63 (2016) - [c15]Simona Buchovecká, Róbert Lórencz, Filip Kodýtek, Jirí Bucek:
True Random Number Generator Based on ROPUF Circuit. DSD 2016: 519-523 - [c14]Filip Kodýtek, Róbert Lórencz, Jirí Bucek, Simona Buchovecká:
Temperature Dependence of ROPUF on FPGA. DSD 2016: 698-702 - 2015
- [c13]Filip Kodýtek, Róbert Lórencz:
A Design of Ring Oscillator Based PUF on FPGA. DDECS 2015: 37-42 - [c12]Jiri Khun, Ivan Simecek, Róbert Lórencz:
GPU Solver for Systems of Linear Equations with Infinite Precision. SYNASC 2015: 121-124 - 2014
- [c11]Jirí Bucek, Pavel Kubalík, Róbert Lórencz, Tomás Zahradnický:
An ASIC linear congruence solver synthesized with three cell libraries. ICECS 2014: 706-709 - [c10]Jirí Bucek, Pavel Kubalík, Róbert Lórencz, Tomás Zahradnický:
System on chip design of a linear system solver. ISSoC 2014: 1-6 - 2013
- [j2]Mikhail Platonov, Josef Hlavác, Róbert Lórencz:
Using Power-Up SRAM State of Atmel ATmega1284P Microcontrollers as Physical Unclonable Function for Key Generation and Chip Identification. Inf. Secur. J. A Glob. Perspect. 22(5-6): 244-250 (2013) - [c9]Josef Hlavác, Róbert Lórencz:
Arithmetic Unit for Computations in GF(p) with the Left-Shifting Multiplicative Inverse Algorithm. ARCS 2013: 268-279 - [c8]Tomás Zahradnický, Róbert Lórencz:
Architecture of a Parallel MOSFET Parameter Extraction System. ARCS 2013: 329-340 - [c7]Jirí Bucek, Pavel Kubalík, Róbert Lórencz, Tomás Zahradnický:
Comparison of FPGA and ASIC Implementation of a Linear Congruence Solver. DSD 2013: 284-287 - 2012
- [c6]Jirí Bucek, Pavel Kubalík, Róbert Lórencz, Tomás Zahradnický:
Dedicated hardware implementation of a linear congruence solver in FPGA. ICECS 2012: 689-692
2000 – 2009
- 2008
- [c5]Tomás Zahradnický, Róbert Lórencz, Pavel Musil:
Making ProTools Accessible for Visually Impaired. ICCHP 2008: 781-788 - 2006
- [c4]Jirí Bucek, Róbert Lórencz:
Comparing Subtraction-Free and Traditional AMI. DDECS 2006: 97-99 - [c3]Tomás Zahradnický, Róbert Lórencz:
Making Nonaccessible Applications Accessible for Visually Impaired. ICCHP 2006: 1047-1054 - 2005
- [j1]Róbert Lórencz, Josef Hlavác:
Subtraction-free Almost Montgomery Inverse algorithm. Inf. Process. Lett. 94(1): 11-14 (2005) - 2004
- [c2]Tomás Zahradnický, Róbert Lórencz:
MOSFET Mathematical Model Parameter Extraction. CCCT (1) 2004: 400-404 - 2002
- [c1]Róbert Lórencz:
New Algorithm for Classical Modular Inverse. CHES 2002: 57-70
Coauthor Index
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last updated on 2024-12-10 20:52 CET by the dblp team
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