Theory and practice of chaotic cryptography JM Amigó, L Kocarev, J Szczepanski Physics Letters A 366 (3), 211-216, 2007 | 216 | 2007 |
Estimating the entropy rate of spike trains via Lempel-Ziv complexity JM Amigó, J Szczepański, E Wajnryb, MV Sanchez-Vives Neural Computation 16 (4), 717-736, 2004 | 180 | 2004 |
Discrete chaotic cryptography Z Kotulski, J Szczepański Annalen der Physik 509 (5), 381-394, 1997 | 141 | 1997 |
Discrete chaos-i: Theory L Kocarev, J Szczepanski, JM Amigó, I Tomovski IEEE Transactions on Circuits and Systems I: Regular Papers 53 (6), 1300-1309, 2006 | 133 | 2006 |
Order patterns and chaos JM Amigó, L Kocarev, J Szczepanski Physics Letters A 355 (1), 27-31, 2006 | 123 | 2006 |
Application of discrete chaotic dynamical systems in cryptography—DCC method Z Kotulski, J Szczepański, K Górski, A Paszkiewicz, A Zugaj International Journal of Bifurcation and Chaos 9 (06), 1121-1135, 1999 | 104 | 1999 |
Application of Lempel–Ziv complexity to the analysis of neural discharges J Szczepański, JM Amigó, E Wajnryb, MV Sánchez-Vives Network: Computation in Neural Systems 14 (2), 335, 2003 | 89 | 2003 |
Biometric random number generators J Szczepanski, E Wajnryb, JM Amigó, MV Sanchez-Vives, M Slater Computers & Security 23 (1), 77-84, 2004 | 57 | 2004 |
On constructive approach to chaotic pseudorandom number generators Z Kotulski, J Szczepanski, K Górski, A Górska, A Paszkiewicz Proc Regional Conference on Military Communication and Information Systems …, 2000 | 44 | 2000 |
Cryptographically secure substitutions based on the approximation of mixing maps J Szczepanski, JM Amigó, T Michalek, L Kocarev IEEE Transactions on Circuits and Systems I: Regular Papers 52 (2), 443-453, 2005 | 42 | 2005 |
Characterizing spike trains with Lempel–Ziv complexity J Szczepański, JM Amigó, E Wajnryb, MV Sanchez-Vives Neurocomputing 58, 79-84, 2004 | 42 | 2004 |
Pseudorandom number generators based on chaotic dynamical systems J Szczepański, Z Kotulski Open Systems & Information Dynamics 8, 137-146, 2001 | 38 | 2001 |
A proposal for a method of defuzzification based on the golden Ratio—GR WT Dobrosielski, J Szczepański, H Zarzycki Novel Developments in Uncertainty Representation and Processing: Advances in …, 2016 | 34 | 2016 |
Discrete Lyapunov exponent and resistance to differential cryptanalysis JM Amigó, L Kocarev, J Szczepanski IEEE Transactions on Circuits and Systems II: Express Briefs 54 (10), 882-886, 2007 | 34 | 2007 |
Experimental study of the free space optics communication system operating in the 8–12 µm spectral range M Garlinska, A Pregowska, I Gutowska, M Osial, J Szczepanski Electronics 10 (8), 875, 2021 | 28 | 2021 |
A chaos-based approach to the design of cryptographically secure substitutions JM Amigó, J Szczepanski, L Kocarev Physics Letters A 343 (1-3), 55-60, 2005 | 28 | 2005 |
Finite-space Lyapunov exponents and pseudochaos L Kocarev, J Szczepanski Physical Review Letters 93 (23), 234101, 2004 | 26 | 2004 |
Mutual information against correlations in binary communication channels A Pregowska, J Szczepanski, E Wajnryb BMC Neuroscience 16 (1), 32, 2015 | 20 | 2015 |
On the number of states of the neuronal sources JM Amigó, J Szczepański, E Wajnryb, MV Sánchez-Vives Biosystems 68 (1), 57-66, 2003 | 20 | 2003 |
Information content in cortical spike trains during brain state transitions MM Arnold, J Szczepanski, N Montejo, JM Amigo, E Wajnryb, ... Journal of Sleep Research 22 (1), 13-21, 2013 | 19 | 2013 |