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Zdenek Biolek
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2020 – today
- 2024
- [j21]Dalibor Biolek
, Viera Biolková
Incremental Mutators for Transforming Between Extended Higher-Order Elements. IEEE Trans. Circuits Syst. II Express Briefs 71(9): 4306-4310 (2024) - 2023
- [j20]Dalibor Biolek
Basis Functions for a Transient Analysis of Linear Commensurate Fractional-Order Systems. Algorithms 16(7): 335 (2023) - [j19]Zdenek Biolek
Extended Higher-Order Elements with Frequency-Doubled Parameters: The Hysteresis Loops Are Always of Type II. Sensors 23(16): 7179 (2023) - 2022
- [j18]Zdenek Biolek
Modeling of the generic memcapacitors using higher-order multi-ports. Commun. Nonlinear Sci. Numer. Simul. 113: 106497 (2022) - [j17]Zdenek Biolek, Dalibor Biolek
Predictive Modeling of MEMS via Generic Meminductors: The Multiport Inductor Approach. IEEE J. Emerg. Sel. Topics Circuits Syst. 12(4): 785-792 (2022) - [j16]Zdenek Biolek
Extended and Generic Higher-Order Elements for MEMS Modeling. Sensors 22(20): 8007 (2022) - [c17]Dalibor Biolek, Zdenek Biolek, Viera Biolková, Zdenek Kolka:
Synthesis of Nonlinear Impedance Converters for Emulating Memory Elements. ICECS 2022 2022: 1-4 - 2021
- [j15]Dalibor Biolek, Zdenek Kolka, Viera Biolková, Zdenek Biolek, Shahar Kvatinsky:
(V)TEAM for SPICE Simulation of Memristive Devices With Improved Numerical Performance. IEEE Access 9: 30242-30255 (2021) - [c16]Zdenek Biolek, Viera Biolková, Dalibor Biolek, Zdenek Kolka:
Modeling of Memcapacitor with Anelastic Dielectric via Two-Port Capacitor. ICECS 2021: 1-4 - [c15]Zdenek Kolka, Viera Biolková, Dalibor Biolek, Zdenek Biolek:
Modeling Electrostatic MEMS Actuator. ICECS 2021: 1-5 - 2020
- [j14]Zdenek Biolek, Dalibor Biolek, Viera Biolková, Zdenek Kolka:
All Pinched Hysteresis Loops Generated by (α, β) Elements: in What Coordinates They May be Observable. IEEE Access 8: 199179-199186 (2020) - [j13]Zdenek Biolek
Higher-Order Hamiltonian for Circuits with (α, β) Elements. Entropy 22(4): 412 (2020)
2010 – 2019
- 2019
- [j12]Zdenek Biolek
Hamilton's Principle for Circuits with Dissipative Elements. Complex. 2019: 2035324:1-2035324:7 (2019) - [j11]Zdenek Biolek
Lagrangian for Circuits with Higher-Order Elements. Entropy 21(11): 1059 (2019) - [c14]Dalibor Biolek, Jiri Vavra
Chua's Table as a Tool for Constructing Dual Networks. APCCAS 2019: 145-148 - 2018
- [j10]Dalibor Biolek
Duality of Complex Systems Built from Higher-Order Elements. Complex. 2018: 5719397:1-5719397:15 (2018) - [j9]Dalibor Biolek
Modeling and simulation of large memristive networks. Int. J. Circuit Theory Appl. 46(1): 50-65 (2018) - [c13]Zdenek Kolka, Viera Biolková, Dalibor Biolek, Zdenek Biolek:
Hardware Implementation of Bio-Inspired Models. NGCAS 2018: 102-105 - 2017
- [j8]Zdenek Biolek, Dalibor Biolek
Analysis of memristors with nonlinear memristance versus state maps. Int. J. Circuit Theory Appl. 45(11): 1814-1832 (2017) - [c12]Dalibor Biolek, Zdenek Biolek, Viera Biolková:
Memristive two-ports. PATMOS 2017: 1-4 - 2016
- [j7]Zdenek Biolek, Dalibor Biolek
Variation of a classical fingerprint of ideal memristor. Int. J. Circuit Theory Appl. 44(5): 1202-1207 (2016) - [c11]Dalibor Biolek
Nonlinear inerter in the light of Chua's table of higher-order electrical elements. APCCAS 2016: 617-620 - [c10]Zdenek Biolek, Dalibor Biolek
Charging the capacitor via a (Memory) resistor. APCCAS 2016: 621-624 - [c9]Dalibor Biolek
Memristors and other higher-order elements in generalized through-across domain. ICECS 2016: 604-607 - [c8]Dalibor Biolek
Memristor models for SPICE simulation of extremely large memristive networks. ISCAS 2016: 389-392 - [c7]Zdenek Biolek, Dalibor Biolek
The simplest memristor in the world. ISCAS 2016: 1854-1857 - 2015
- [j6]Alon Ascoli, Ronald Tetzlaff
The Art of Finding Accurate Memristor Model Solutions. IEEE J. Emerg. Sel. Topics Circuits Syst. 5(2): 133-142 (2015) - [j5]Zdenek Biolek, Dalibor Biolek
Specification of one classical fingerprint of ideal memristor. Microelectron. J. 46(4): 298-300 (2015) - [j4]Zdenek Biolek, Dalibor Biolek
(Co)content in Circuits With Memristive Elements. IEEE Trans. Circuits Syst. I Regul. Pap. 62-I(2): 488-496 (2015) - [c6]Alon Ascoli, Ronald Tetzlaff
Techniques for reliable and accurate numerical solutions of memristor models. ECCTD 2015: 1-4 - [c5]Zdenek Biolek, Dalibor Biolek
Generalized rule of homothety of ideal memristors and their siblings. ECCTD 2015: 1-4 - 2014
- [j3]Zdenek Biolek, Dalibor Biolek
How Can the Hysteresis Loop of the Ideal Memristor Be Pinched? IEEE Trans. Circuits Syst. II Express Briefs 61-II(7): 491-495 (2014) - [c4]Dalibor Biolek
Some Regularities of the Spectral Content of the Responses of Memristive Systems to Sinusoidal Excitation. EMS 2014: 473-478 - 2013
- [c3]Dalibor Biolek
Some fingerprints of ideal memristors. ISCAS 2013: 201-204 - 2012
- [j2]Zdenek Biolek, Dalibor Biolek
Computation of the Area of Memristor Pinched Hysteresis Loop. IEEE Trans. Circuits Syst. II Express Briefs 59-II(9): 607-611 (2012) - [j1]Zdenek Biolek, Dalibor Biolek
Analytical Solution of Circuits Employing Voltage- and Current-Excited Memristors. IEEE Trans. Circuits Syst. I Regul. Pap. 59-I(11): 2619-2628 (2012)
2000 – 2009
- 2009
- [c2]Dalibor Biolek
SPICE modeling of memristive, memcapacitative and meminductive systems. ECCTD 2009: 249-252
1990 – 1999
- 1996
- [c1]Dalibor Biolek, Zdenek Biolek:
Potential stability of DC operating points in the circuits with controlled sources. ICECS 1996: 101-104
Coauthor Index
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