диафрагмированные волноводные фильтры / 930d51d1-42ea-4794-ae8e-d7d771962686
.pdfTABLE OF CONTENTS
Section 1
MICROAND NANOELECTRONICS
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system |
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N. Ryabtseva, D. Barchukov, |
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Correlation Method of Estimation of the |
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1 |
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Relief Impact Synchronicity on the CNT- |
18-21 |
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S. Slobodyan, A. Karelin |
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needle and Probe |
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4 |
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V. Kubov, A. Bozhenko, |
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The Photovoltaic Cells Spectral Response |
22-27 |
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Y. Dymytrov, R. Kubova |
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and Photocurrent Seasonal Variations |
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I. Melnyk, S. Tuhai, |
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Interpolation of the Boundary Trajectories of |
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9 |
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Electron Beams by the Roots from |
28-33 |
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A. Pochynok |
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Polynomic Functions of Corresponded Order |
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15 |
O. Ahapova, G. Koshovy |
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On EM Wave Scattering by Coplanar |
34-37 |
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System of Flat Impedance Strips |
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Simulation of radio waves focusing by a |
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16 |
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E. Velichko |
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two-dimensional parabolic mirror made from |
38-42 |
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parallel dielectric, dielectric-graphene and |
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conducting cylinders |
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O. Osadchuk, V. Martyniuk, |
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Electrical Properties of Semiconducting |
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22 |
O. Semenova, I. Osadchuk, |
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Heterometallic (Copper, Yttrium)- |
43-46 |
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M. Evseeva, T. Yushchenko |
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Containing Acetylacetonate |
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Yu.Poplavko, D. Tatarchuk, |
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Using the Uniform and Gaussian |
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25 |
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Distribution of Frequencies for the Analysis |
47-50 |
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Yu. Didenko |
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of Broadband Dielectric Relaxation Spectra |
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Yu.Poplavko, D. Tatarchuk, |
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Using the Dielectric Dispersion Oscillator |
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27 |
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with Distributed Frequency for Analysis of |
51-56 |
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Yu. Didenko |
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Broadband Resonance Dielectric Spectra |
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Processing and Communication on Quantum |
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31 |
S. E. Lyshevski, I. Puchades |
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Ensemble Transductions and Physical |
57-62 |
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Observables |
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40 |
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M. Rezinkina, O. Rezinkin, |
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Mathematical Simulation of Emission |
63-66 |
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S. Lytvynenko |
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Devices on Arrays of Carbon Nanotubes |
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S. Dukhopelnykov, |
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Backward Scattering from a Circular |
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44 |
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Dielectric Rod with a Conformal Strip of |
67-70 |
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R. Sauleau |
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Graphene |
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O.Bauzha, B. Sus', |
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Electronic States and Magnetic Properties of |
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45 |
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I. Gavrilchenko, |
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71-76 |
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GaN Artificial Atoms |
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S. Zagorodnyuk |
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Full-Wave Modeling of Beam Position |
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48 |
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D. Herasymova , |
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Monitors on Silver Nanowires and |
77-80 |
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S. Dukhopelnykov |
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Nanotubes: Analysis of Solution |
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Convergence |
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V. Maslov, G. Dorozinsky, |
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Improvement of sensor glass substrates for |
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49 |
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I. Yatsenko, V. Kladko, |
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81-84 |
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surface plasmon resonance devices |
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H. Dorozinska, O. Gudymenko |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
5 |
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A. Yatsymyrskyi, |
DFT Study on H2, H2O, and O2 Adsorption |
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54 |
A. Dyachenko, E. Ischenko, |
85-89 |
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T. Zakharova, S. Gaidai, |
on Ni(111) Surface |
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V. Lisnyak |
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The Deposition of Thin Metal Films in Low |
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56 |
M.Bolotov |
Temperature Plasma of Hollow Cathode |
90-94 |
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Glow Discharge |
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Effect of Plasma-Chemical Synthesis |
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57 |
L. Frolova, T. Butyrina |
Parameters on the Magnetic Properties of |
95-99 |
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Ferrite Co0,5Ni0,5Fe2O4 |
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S. Kakherskyi, O. Dobrozhan, |
Cu2ZnSnS4, Cu2ZnSnSe4 Nanocrystals |
100-104 |
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58 |
R. Pshenychnyi, D. Kurbatov, |
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As Absorbers In 3rd Generation Solar Cells |
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N. Opanasyuk |
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H.Shevliakova, A.Morozovska, |
Ferroelectric Nanocomposites: Influence of |
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65 |
N.Morozovsky, G.Svechnikov, |
Nanoparticles Size on Electrocaloric |
105-108 |
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V.Shvartsman |
Conversion Parameters |
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V. Tulupenko, V. Akimov, |
Hydrogenic Impurity States in a Delta-Layer |
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R. Demediuk, A. Tiutiunnyk, |
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72 |
C. Duque, D. Sushchenko, |
within Quantum Wells in a Transversal |
109-113 |
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O. Fomina, A. Morales, |
Electric Field |
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D. Laroze |
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G. Fedorenko, L. Oleksenko, |
Sensitive Characteristics of Hydrogen |
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76 |
N. Maksymovych, I. Vasylenko, |
Sensors Based on Pt/SnO2 Nanosized |
114-117 |
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I. Matushko, G. Skolyar |
Material |
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L. Lutsenko, L. Oleksenko, |
Nanosized Oxide Materials: Morphology, |
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I. Vasylenko, O. Ripko, |
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77 |
Phase Composition and Catalytic Activity in |
118-121 |
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G. Fedorenko, |
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CO Oxidation |
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N. Maksymovych |
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79 |
V. Moskaliuk, T. Saurova, |
Study of Electron Drift Mobility in Nitrides |
122-125 |
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H. Semenovska, О. Shevchuk |
Indium and Gallium |
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V. Grimalsky, Yu. Rapoport, |
Nonlinear Transparency of Dielectric - Metal |
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S. Koshevaya, J. Escobedo- |
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83 |
Alatorre, C. De Angelis, |
– Dielectric 1D photonic crystals in the THz |
126-129 |
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C. Baratto, C. Simovski, |
Range |
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D. Soshylov |
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85 |
D. Natarov, A. Natarova |
Focusing effect of discrete parabolic |
130-133 |
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reflector made of dielectric wires |
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E. Lysenkov, I. Lysenkova, |
Relaxation processes in nanocomposite |
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87 |
polymer electrolytes based on polyethylene |
134-137 |
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V. Klepko |
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glycol and hybrid nanofiller |
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90 |
H. Aghayan |
Wide range current mirror implemented with |
138-142 |
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triode region transistors |
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Y. Mamchur, V. Ivanova, |
Thermography investigation of soldered |
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91 |
G. Monastyrsky, |
143-147 |
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T. Melnychenko, |
joints for LED mounting |
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G. Zheng, S. Voronov |
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I.Kruhlov, L.Kapitanchuk, |
Effect of barrier underlayer on diffusion and |
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94 |
S.Sidorenko, Z.Erdélyi, |
phase composition of Ni/Cu thin films under |
148-151 |
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T.Ishikawa, S.Voloshko |
annealing |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
6 |
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A.Druzhinin, I.Ostrovskii, |
Giant Magnetoresistance in the Deformed |
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95 |
Yu.Khoverko, |
152-155 |
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Microcrystals of Indium Antimonide |
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N.Liakh-Kaguy, V.Mazur |
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O. Pylypova, A. Evtukh, |
Influence of Si Nanowires Parameters and |
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101 |
V. Skryshevsky, I. Ivanov, |
Ag Nanoparticles on Light Trapping in Solar |
156-159 |
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L. Ruta, S. Shmagliy |
Cells |
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A. Yatsymyrskyi, |
Coadsorption and Reaction of CO2, CO, |
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102 |
A. Dyachenko, E. Ischenko, |
160-163 |
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T. Zakharova, S. Gaidai and |
and H2 on Ni–Fe(111) Surface |
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V. Lisnyak |
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E.Lysenkov, I.Lysenkova, |
Mechanisms of charge transfer in polymer |
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107 |
systems based on polyethers and carbon |
164-167 |
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V.Klepko |
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nanotubes |
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T.Voitenko, O.Chukova, S.G. |
Borate-vanadate glass-ceramic composites |
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Nedilko, S.A. Nedilko, |
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109 |
doped with crystalline luminescent oxide |
168-172 |
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M.Androulidaki, A.Manousaki, |
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E. Stratakis |
nanoparticles |
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L. Grishchenko, V. Diyuk, |
Enhancing the Performance of |
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I. Matushko, G. Tsapyuk, |
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116 |
O. Boldyrieva, D. Pontiroli, |
Supercapacitor Activated Carbon Electrodes |
173-177 |
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S.Scaravonati, M. Ricco, |
by Oxidation |
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R. Mariychuk, V. Lisnyak |
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117 |
I.Tokarieva , A.Maizelis |
Nucleation in the process Cu-Sn alloy |
178-181 |
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nanoscale films electrodeposition |
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132 |
H. Klym, I.Karbovnyk, |
Grain-Porous Investigations of the |
182-185 |
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I. Hadzaman, D. Lukashevych |
Cu0.4Ni0.4Co0.4Mn1.8O4 Ceramics |
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V. Diyuk, L. Grishchenko, |
The effect of oxidation on the surface |
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O. Boldyrieva, |
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133 |
properties and modification of carbons: a |
186-189 |
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A. Yatsymyrskyi, A. Zaderko, |
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DFT study |
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V. Lisnyak |
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G. Fedorenko, L. Oleksenko, |
Nanosized materials based on SnO2 for |
190-193 |
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139 |
N. Maksymovych, I. Vasylenko, |
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adsorption semiconductor gas sensors |
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O. Ripko, G. Skolyar |
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V. Diyuk, L. Grishchenko, |
Functionalization of Multi-Walled Carbon |
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140 |
G. Tsapyuk, A. Vakaliuk, |
Nanotubes with 3-Sulfolene and Diethyl |
194-198 |
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A. Zaderko, V. Lisnyak |
Acetylenedicarboxylate |
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T.Voitenko, I.Fesych, |
Influence of the Ba/Cu ratios on the |
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141 |
O.Dziazko, S.A.Nedilko, |
formation and electrical properties of the |
199-202 |
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M.Zelenko, D.Naumova |
barium cuprate phases |
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143 |
T. Tsaregradskaya, I.Ovsiienko, |
The explosive crystallization process in |
203-206 |
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G. Saenko, I. Plyushchay, |
binary amorphous alloys Ni-Zr system |
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O. Kalenyk |
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144 |
A.Oktyabrskaya, A.Repina, |
Laser Modes of Active Circular Microcavity |
207-210 |
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E.Karchevskii |
with Circular Piercing Hole |
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I. Kogut, V. Holota, |
Simulation of Sensor Capacitive Elements |
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146 |
A. Druzhinin, V. Pavlysh, |
211-215 |
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Built into the Microsystem-On-Chip |
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Yu. Khoverko , T. Benko |
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G.Shevchenko, A.Pilipenko, |
Production of Nanosize Interference-colored |
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151 |
T.Shkolnikova, S.Gura, |
216-219 |
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Oxide Films on the Ti6Al4V Alloy Surface |
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O.Smirnova |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
7 |
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Using the Method of Electrochemical |
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Oxydation in Succinate Eletrolytes |
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Harshit Soni, Pranav M |
Thermal Reliability of GaN-BTG-MOSFET |
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152 |
Tripathi, M.M. Tripathi, Ajay |
for High Performance Applications in |
220-223 |
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Kumar, Rishu Chaujar |
Integrated Circuits |
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M. Zozyuk, D. Koroliouk, |
Creation of quasiperiodic surfaces under the |
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154 |
V. Moskaliuk, A. Yurikov, |
224-229 |
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action of vibrating dielectric matrices |
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Y. Yakymenko |
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M. Kaliberda, S. Pogarsky, |
Modeling of Scattering of Dielectric |
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156 |
Waveguide Eigenwaves by System of |
230-233 |
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L. Kaliberda |
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Graphene Strips at THz |
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159 |
S. Harutyunyan, T. Kaplanyan, |
Configurable Verification IP for UART |
234-237 |
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A. Kirakosyan, H. Khachatryan |
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160 |
M. Kogdas, M. Maschenko, |
Infrared Spectroscopy of Porous Silicon |
238-241 |
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A. Kholod, M. Dernova |
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А.Mnatsakanyan, |
Supply variations tolerant dual logic level |
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164 |
converter with ultralow output swing |
242-245 |
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R.Soghomonyan, H.Kostanyan |
on14nm FinFet technology |
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V. Koval, M. Dusheyko, |
Reactive Ion Beam Sputtered Molybdenum |
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A. Ivashchuk, S. Mamykin, |
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172 |
A. Ievtushenko, V. Barbash, |
Oxide Thin Films for Optoelectronic |
246-250 |
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M. Koliada, V. Lapshuda, |
Application |
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R. Filov |
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T.Voitenko, O.Chukova, |
Deposition of Luminescent vanadate |
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178 |
S.G. Nedilko, S.A. Nedilko, |
251-254 |
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M.Androulidaki, K.Savva, |
nanoparticles on silicon solar cells |
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A.Papadopoulos, E.Stratakis |
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182 |
Yu. Len, O. Prokopenko |
Oxidation of Mn/Si(001) System Over a |
255-258 |
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Wide Range of Exposures |
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183 |
H.Azatyan, H.Sahakyan, |
IO Glitch Filter |
259-262 |
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A.Galstyan, S.Harutyunyan |
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Yu. Hizhnyi, S. Nedilko, |
Interaction of K2CrO4 Oxide Nanoparticles |
263-267 |
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186 |
V. Borysiuk, |
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with Carbon Nanostructures |
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Ya. Zhydachevskyy |
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M.Rudka, I.Matviishyn, |
Luminescence centers in low-dimensional |
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187 |
B.Seredyuk, N.Tovstyuk, |
layered cadmium iodide crystals and |
268-271 |
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M.Karkulovska, I.Kravchuk |
nanostructures |
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H. Klym, |
Multichannel Positron-Positronium Trapping |
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188 |
Models for Nanovoids Characterization of |
272-275 |
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D. Lukashevych |
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Functional Materials |
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V.Melikyan, K.Petrosyan, |
The Method Of Low Power, High |
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191 |
Performance And Area Efficient Address |
276-279 |
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A.Mkhitaryan, H.Margaryan |
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Decoder Design For SRAM |
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T. Lebyedyeva, P. Shpylovyy, |
Development and manufacture of high- |
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192 |
sensitivity SPR sensors based on |
280-283 |
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Y. Frolov, M. Budnyk |
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Au/niobium oxide thin-film structures |
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193 |
S.Sokolovsky, A.Sokolovsky, |
Plasma Hydrodynamics in the Generalized |
284-287 |
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O.Hrinishyn, I.Kravchuk |
Lorentz Model |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
8 |
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Features of electrical conductivity in |
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198 |
E.Lysenkov, I.Lysenkova, |
nanocomposite polymer electrolytes based |
288-291 |
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V.Klepko |
on polyethylene glycol, LiClO4 and |
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organomodified laponite |
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199 |
J. Venter, S. Sinha |
Optimization of 4T Pixel Structure BiCMOS |
292-296 |
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Detectors using y-parameter Representation |
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V. Chornii, S.G. Nedilko, |
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A. Alekseev, K. Terebilenko, |
Properties of the micro/nanocrystalline |
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202 |
V. Boyko, M. Lazarenko, |
297-301 |
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cellulose filled with ZrO2:Eu,F particles |
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S. Revo, V. Scherbatskyi, |
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P. Teselko |
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D.Stepanov, |
Analysis of the influence of non-metallic |
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203 |
V.Beregun,O.Harmash, |
inclusions on the wear resistance of the weld |
302-306 |
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Y.Chvertko, I.Novikov |
metal |
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205 |
A.Druzhinin, S.Nichkalo, |
Efficiency Gain of Silicon Solar Cells |
307-310 |
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V.Yerokhov, R.Dudnik |
Through Using of Multitextures |
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207 |
A.Maizelis, I.Patsay |
Dissolution of zinc-enriched phases during |
311-314 |
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layer-by-layer deposition of Cu-Zn thin films |
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S. Novosiadlyi, V. Mandzyuk, |
Modified Pearson Model for High-Energy |
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210 |
V. Hryha, A. Terletsky, |
Multi-Charge Implantation and Impurity |
315-318 |
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T. Benko, V. Lukovkin |
Activation for Sensor Microsystems |
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Y.Krutin, A.Korchak, |
Modeling of Multiwave Pumped Fiber |
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216 |
Raman Amplifier for C+L |
319-322 |
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M.Reznikov, G.Felinskyi |
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Telecommunication Windows |
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N. Liedienov, G. Levchenko, |
Structure, Morphology and Magnetocaloric |
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221 |
A. Pashchenko, E. Kuchuk, |
Effect of Manganite-Perovskite |
323-326 |
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G. Bochkova, A. Bodnaruk, |
Nanoparticles with Superstoichiometric |
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V. Pogrebnyak, I. Fesych |
Manganese |
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222 |
I. Ivanov, V. Skryshevsky |
Porous silicon optical distributed Bragg |
327-330 |
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reflector sensor: methods of characterization |
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A.Mkhitaryan, H.Kostanyan, |
Stability improvement method for ultra-low |
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225 |
H.Grigoryan, H.Margaryan, |
331-334 |
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H.Kirakosyan, H.Kostanyan, |
power bandgap reference |
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M.Grigoryan, K.Petrosyan |
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H.Kostanyan, H.Margaryan, |
The Minimization Method Of Transistor |
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V.Janpoladov, H.Grigoryan, |
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226 |
Ageing Influence On Modern Voltage |
335-338 |
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H.Kirakosyan, H.Kostanyan, |
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References |
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M.Grigoryan, G.Petrosyan |
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227 |
A.Mnatsakanyan, |
Digitally programmable reference voltage |
339-342 |
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R. Soghomonyan, H.Kostanyan |
selector on 14nm FinFet technology |
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T. Obukhova, D. Volynskyi, |
Melanin/porous silicon heterojunctions for |
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229 |
M. Dusheiko, R. Madan, |
343-346 |
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solar cells and sensors aplications |
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N. Kutuzov |
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231 |
T. Kaplanyan, S. Harutyunyan, |
Design And Verification Of |
347-350 |
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A. Momjyan, A. Kirakosyan |
Autoconfigurable UART Controller |
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I. Karbovnyk, H. Klym, |
Electrical Behavior of Single/Multi-Walled |
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233 |
D. Lukashevych, D. Chalyy, |
351-354 |
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Carbon Nanotubes Composites |
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I. Zhydenko |
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236 |
A. Chernov, I. Golubeva, |
Losses in the Micromechanically Tunable |
355-360 |
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V. Kazmirenko, Y. Prokopenko |
Coplanar Waveguide Based Line |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
9 |
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A. Voloshyn, I. Golubeva, |
Frequency Tunable Spherical and |
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237 |
Rectangular Dielectric Resonator Antennae |
361-365 |
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V. Kazmirenko, Y. Prokopenko |
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with Waveguide Feed |
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H.Sahakyan, S.Harutyunyan, |
A Low Dropout Voltage Regulator with |
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238 |
H.Azatyan, A.Hayrapetyan, |
Higher Than Supply Output Voltage and |
366-369 |
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A.Stepanyan, G.Hovsepyan |
Load Based Frequency Control System |
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I. Klym, I. Hadzaman, |
Ageing Kinetics in Temperature Sensitive |
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239 |
I. Vasylchyshyn, Yu. Kostiv, |
370-373 |
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Thick Films Based on Spinel Ceramics |
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D. Lukashevych |
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240 |
M. Grigiryan, A. Atanesyan, |
Two Stage CTLE For High Speed Data |
374-377 |
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S. Harutyunyan, G. Hakobyan |
Receiving |
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242 |
E. Glushechenko |
Compact Longitudinal Uniaxial Waveduide |
378-381 |
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to Coaxial Connector |
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246 |
M. Yasir, P. Savi |
Graphene based voltage controlled frequency |
382-385 |
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reconfigurable antennas |
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250 |
Ch. Liu , I. Ibraimov, |
Estimation of the Space Resolving Ability of |
386-389 |
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O. Panchenko, M. Slipchenko |
Open Coaxial UHF Sensor |
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Section 2
BIOMEDICAL ELECTRONICS AND SIGNAL PROCESSING
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# in |
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CMT |
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Authors |
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Title |
Pages |
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system |
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I. Chaikovsky, O. Oshlianska, |
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Using of Data Mining methods to evaluate |
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19 |
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A. Artsymovych, O.Kryvova , |
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the myocardial damage in children with |
391-395 |
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O. Kovalenko, L. Stadniuk |
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juvenile idiopathic arthritis |
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28 |
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V. Lozovski, N. Rusinchuk, |
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How can the visible spectra describe |
396-399 |
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M. Polishchuk |
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interaction of nanoparticles with microbes |
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V.Tsapenko, M.Tereshchenko, |
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29 |
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G.Tymchyk, S.Matviienko, |
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Analysis of Dynamic Load on Human Foot |
400-404 |
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V.Shevchenko |
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A. Pulavskyi, L. Kryvenko, |
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The use of lossless compression in the |
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41 |
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M. Posokhov, S. Krivenko, |
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process of post-filtration smoothing of an |
405-408 |
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S. Krivenko |
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ECG distorted by high muscle noise |
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46 |
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A. Suprun, L. Shmeleva |
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Physical Fields in Proteins as a Factor of |
409-414 |
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Controlling Metabolic Nanocurrent |
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63 |
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M.Razumova, Yu.Lunga, |
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Plasmonic nanoparticles with biospecific |
415-418 |
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V.Lozovski |
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surfaces in optical sensorics of bioliquids |
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Enhanced Frame-Similarity Technique for |
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74 |
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V. Oliynik |
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Detection of Respiratory and Cardiac |
419-424 |
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Rhythms in Auscultation Records |
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80 |
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А. Nadtochiy, V. Shmid, |
|
Miniature ultrasonic transducer for lab-on- |
425-429 |
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O. Korotchenkov |
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a-chip applications |
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81 |
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I. Khokhlov, L. Reznik, |
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Adaptive Data Fusion in Inertial Sensors |
430-435 |
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S. E. Lyshevski |
|
and Data Quality of Sensor Networks |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
10 |
|
O.Yanenko, S.Peregudov, |
Assessment of dielectric implantable |
|
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82 |
K.Shevchenko, V.Malanchuk, |
biomaterials compatibility based on the |
436-441 |
|
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O.Golovchanska |
level of low-intensity mm-range signals |
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86 |
T. Bulavinets, I. Yaremchuk, |
Photocatalytic Properties of Metal- |
442-445 |
|
A. Barylyak, Ya. Bobitski |
Semiconductor Nanosystems |
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D. Havryliuk, Y. Zhuk, |
Research of Surface Relief Morphology of |
|
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88 |
Nanosized Gold Films by the Method of |
446-449 |
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M. Melnichenko |
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Scanning Tunnel Microscopy |
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O. Dekusha, L. Vorobiov, |
Heat Exchange Simulation Of The Method |
|
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L. Dekusha, V. Babak, |
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97 |
And Portable Device For Measuring The |
450-455 |
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S. Ivanov, S. Kobzar, S. Kovtun, |
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H. Dekusha |
Emissivity |
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N. Nikolov, S. Makeev, |
Automated Stereotactic Standardization of |
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100 |
T. Novikova, Y. Kriukova, |
456-459 |
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Brain SPECT with 99mTc-HMPAO |
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V. Tsikalo |
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A.Nechyporenko, V. Reshetnik, |
Implementation and analysis of uncertainty |
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104 |
V. Alekseeva, N. Yurevych, |
of measurement results for anatomical |
460-463 |
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R. Nazaryan, V. Gargin |
images |
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112 |
G.Tymchik, V.Skytsiouk, |
Distortion of phantom object’s realizations |
464-468 |
|
T.Klotchko |
in biological presence zone |
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V. Gargin, R. Radutny, |
Application of the computer vision system |
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128 |
G. Titova, D. Bibik, |
for evaluation of pathomorphological |
469-473 |
|
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A. Kirichenko, O. Bazhenov |
images |
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V.E.Orel, L.Syvak, I.Smolanka |
|
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(senior), T.Golovko, A.Loboda, |
Computer-assisted Inductive Moderate |
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A.Rykhalskyi, A.Lyashenko, |
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134 |
Hyperthermia Planning In Breast Cancer |
474-477 |
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I. Dosenko, A.Mokhonko, |
||||
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Patients |
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V.B.Orel, A.Ganich, I.Smolanka |
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(junior) |
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135 |
S. Krivenko, F. Li, V. Lukin, |
Prediction of Visual Quality Metrics in |
478-483 |
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B. Vozel, O. Krylova |
Lossy Image Compression |
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A. Varnavsky, |
Using brain-computer interface for |
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136 |
measuring indicators of cognitive processes |
484-487 |
||
I. Romanova |
||||
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(a case of doing educational reading) |
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137 |
A.Prodeus, M.Didkovska, |
The Effects of Noise, Early and Late |
488-492 |
|
D.Motorniuk, O.Dvornyk |
Reflections on Speech Intelligibility |
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V.Shurbin, M.Hnezdilov, |
Hardware-Software Complex to Diagnostic |
|
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and Rehabilitation the Patients with |
493-498 |
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142 |
I.Zhuravska, A.Boiko, |
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Damages of Cervical-Thoracic Spine and |
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V.Polianichkin, V.Burenko |
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Hand Nerves |
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Y.Onykiienko, O.Batina, |
The selection of the test pulse duration for a |
|
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145 |
G.Vlasyuk, V.Shvaichenko, |
shock excitation study of ultrasonic |
499-502 |
|
|
A.Mitsukova, O.Marchenko |
transducers |
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|
O.Smirnova, A.Pilipenko, |
The Synthesis of Gold Nanoparticles in |
|
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150 |
A.Vovk, A.Nikonov, |
Chloride-Citrate Water Solutions Obtained |
503-506 |
|
|
A.Zhytomyrskiy, Z.Mukhin |
Using the Electrochemical Method |
|
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|
|
2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
11 |
|
V. Vasylyshyn,O. Barsukov, |
The use of the "Caterpillar" method for the |
|
|
161 |
A. Bekirov, O. Sukhanov, |
tasks of voice range |
507-510 |
|
|
M.Boiko |
noise filtering |
|
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170 |
V. Abramova, S. Krivenko, |
Analysis of Noise Properties in Dental |
511-515 |
|
V. Lukin, O. Krylova |
Images |
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Y.Nosova, O.Avrunin, |
Determination of nasal breathing disorders |
|
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174 |
M.Tymkovych, S.Khudaieva, |
516-519 |
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according to computer tomography |
||||
|
N.Yurevych, B.Glasmacher |
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A.Shulyak, T.Saurova, |
Modifications of recognition procedures of |
|
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biomedical signals using shape |
520-525 |
||
177 |
A.Shachykov, V.Sirotenko, |
|||
characteristics for their description and in |
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V.Lahutin |
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decision criteria |
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181 |
S. Miroshnichenko, |
Digital X-ray tomosynthesis applications for |
526-529 |
|
O. Miroshnychenko, Y. Khobta |
screening racehorse bone tissue |
|||
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M. Zablodskiy, V. Kozyrskyi, |
Electrochemical Characteristics of the |
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184 |
A. Zhyltsov, V. Savchenko, |
Substrate Based on Animal Excrement |
530-535 |
|
O. Sinyavsky, M. Spodoba, |
During Methanogenesis With the Influence |
|||
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|||
|
P. Klendiy, G. Klendiy |
of a Magnetic Field |
|
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|
S. Mamilov, D. Velyhotskyi, |
Non-Invasive Assessment of Blood Glucose |
|
|
189 |
S. Yesman, A. Mysiura, I. Bekh, |
536-540 |
||
Changes with Near Infrared Sensor |
||||
|
A. Gisbrecht |
|
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|
195 |
S. Yelmanov, Y. Romanyshyn |
Quantifying the contrast of objects in a |
541-546 |
|
complex image |
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Effect of Surface-Charge Diffusion on the |
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200 |
V. Datsyuk, O. Pavlyniuk |
Polarization of a Dielectric Sphere and Its |
547-551 |
|
Role in Electrohydrodynamics and |
||||
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|
|
Electromechanics |
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|
K.Muzyka, Y.Zholudov, |
9,10-diphenylanthracene/Polyvinylbutyral/ |
|
|
|
Glassy Carbon Based Transducer: from |
552-556 |
||
208 |
A.Kukoba, V.Gura, G.Khaled, |
|||
Spin Coater Development to |
||||
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G.Xu |
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|
Electrochemiluminescent Applications |
|
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|
|
H. Petrovska, Y.Kotsiuba, |
The method of digital holographic |
|
|
212 |
V.Fitio, Y. Bobitski, A.Barylyak, |
interferometry for research of dental |
557-560 |
|
|
S.Got |
implants |
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|
M.Zablodskiy, V.Gritsyuk, |
Analysis of 3D eddy current distribution in |
|
|
214 |
Y.Rudnev, R.Brozhko, |
a hollow rotor of an electromechanical |
561-564 |
|
|
O.Tymofieieva |
converter |
|
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|
217 |
M. Salman, F. Elsayed, |
A Zero-Attracting Lncosh Adaptive |
565-568 |
|
M. Rashdan, A. Youssef |
Algorithm |
|||
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|
I. Yermakova, A. Nikolaienko, |
Computer model for heat stress prediction |
|
|
220 |
J. Tadeieva, A. Bogatonkova, |
569-573 |
||
during physical activity |
||||
|
Y. Solopchuk, O. Gandhi |
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223 |
A. Dykyi, Y. Vountesmery |
Image preprocessing for eye pupil tracking |
574-579 |
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|
|
V. Yefimova, |
Effectiveness assessing of softwares with |
|
|
234 |
S. Miroshnichenko, D. Radko, |
AI for chest area X-ray images post- |
580-583 |
|
|
A. Nevgasymyy |
processing. |
|
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|
|
|
2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
12 |
|
A.Havriushenko, K.Slyusarenko, |
Smartwatch based respiratory rate |
|
|
241 |
estimation during sleep using CNN/LSTM |
584-587 |
||
|
I.Fedorin |
neural network |
|
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|
243 |
K.Ivanko, N.Ivanushkina, |
Identifying episodes of sleep apnea in ECG |
588-593 |
|
A.Rykhalska |
by machine learning methods |
|||
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|
244 |
H. Porieva, K. Bahdasariants, |
Detection of Respiratory Diseases Using |
594-597 |
|
T. Saurova |
Bispectral Analysis Method |
|||
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|
N. Ivanushkina, K. Ivanko, |
New Approach for Currents Assessment in |
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245 |
A. Kotliarova, O. Kotyk, |
598-602 |
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V. Lukianenko, I. Nesteruk, |
Single Ion Channels of Cardiac Cells Nuclei |
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V. Timofeyev, B. Zadokha |
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L.Marynchenko, O. Nizhelska, |
Observed effects of electromagnetic fields |
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247 |
A.Kurylyuk, S.Naumenko, |
action on yeast and bacteria cells attached to |
603-608 |
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V.Makara |
surfaces |
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A. Kotliarova, O. Kotyk, |
Preliminary Statistical Analysis of Large |
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248 |
N. Ivanushkina, K. Ivanko, |
609-612 |
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V. Lukianenko, B. Zadokha, |
Conductance Cationic Channels Flickering |
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I. Nesteruk |
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249 |
O. Karnaukh, Y. Karplyuk |
Application of Machine Learning Methods |
613-617 |
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for Artificial ECG with T-wave alternans |
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Section 3
ELECTRONIC SYSTEMS
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# in |
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CMT |
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Authors |
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Title |
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system |
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S. Arhun, A. Hnatov, |
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An integrated system of alternative sources of |
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5 |
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V. Mygal, S. Khodyriev, |
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619-624 |
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electricity generation for charging urban electric buses |
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A. Popova, H. Hnatova |
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V.Lishchenko, H.Khudov, |
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The MIMO System on Based Existing Mechanical |
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7 |
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B.Lisogorsky, O.Baranik, |
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625-628 |
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Rotation Radars With Wide Surveillance Area |
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D.Holovniak, O.Serdjuk |
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V. Manoylo, Shch. Arhun, |
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Looking into characteristics of a designed |
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10 |
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E. Kalinin, S. Polyashenko, |
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electromagnetic gas regulator for the power supply |
629-634 |
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A. Iesipov, H. Hnatova |
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system of a motor vehicle |
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12 |
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O. Plakhtii, V. Nerubatskyi, |
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The Analysis Of Mathematical Models of Charge- |
635-640 |
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A. Mashura, D. Hordiienko |
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Discharge Characteristics In Lithium-Ion Batteries |
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Assessment of the Effect of Image Shift on the Results |
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M. Korobchynskyi, |
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of Photo-Video Recording (previous article title - |
641-645 |
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14 |
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М. Slonov, М. Rudenko, |
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"Image Shift at Photovideoshooting: Algorithm of |
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O. Maryliv |
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Influence on the Results of Remote Sensing of |
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Objects") |
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V.Marasanov, |
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Operator of the Dynamic Process of the Appearance of |
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18 |
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D.Stepanchikov, |
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Acoustic Emission Signals During Deforming the |
646-650 |
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A.Sharko, A.Sharko |
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Structure of Materials |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
13 |
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A. Volovyk, V. Kychak, |
Simultaneous estimation in linear dynamic systems |
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20 |
D. Kudriavtsev, D. Havrilov, |
651-655 |
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with the Indeterminate structure disturbances |
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A. Yarovyi, L. Krylik |
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30 |
S. E. Lyshevski |
Motion Control of Electrostatic Microactuators |
656-661 |
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A. Trevino, M. Hobosyan, |
Design and Characterization of Thermoplastic |
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37 |
K. Martirosyan, I. Davila, |
Microthrusters With Nanothermite Intermolecular |
662-666 |
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S. E. Lyshevski |
Composites |
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M. Kalimoldayev, |
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S. Tynymbayev, M. |
FPGA Implementation of Encryption Algorithms |
667-671 |
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38 |
Magzom, |
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Based on Residual Polynomials |
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D. Tananova, S. E. |
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Lyshevski |
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O. Sukharevsky, V. Vasilets, |
Methods for Computing the Radiation Characteristics |
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42 |
S. Nechitaylo, V. Orlenko, |
of Airborne Aperture Antennas Placed under Radomes |
672-677 |
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P. Open’ko, V. Patalakha |
of Various Shapes |
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L.Emelyanov, V.Pulyayev, |
Determination of the Artificial Space Objects Speed |
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43 |
A.Miroshnikov, |
678-682 |
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Using the Incoherent Scatter Radars |
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E.Rogozhkin |
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50 |
O. Korzhyk, V. Dіdkovskyi, |
Construction the Device of Acoustic Noise Air |
683-687 |
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A. Kozak, S. Naida |
Bearing |
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R. Solovyev, V. Aliev, |
Deep Learning Approaches for Understanding Simple |
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51 |
M. Vakhrushev, |
688-693 |
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A. Radionov, I. Romanova, |
Speech Commands |
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A. Amerikanov, A. Shvets |
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O.Leiko, A.Derepa, |
On the Possibilities of Controlling the Dynamic |
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59 |
O.Pozdniakova, |
Properties of Cylindrical Piezoceramic Radiators in |
694-699 |
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N.Bogdanova |
Telecommunication Problems |
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O. Sushchenko, |
Modelling of Airborne High-technological Coriolis |
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61 |
V.Chikovani, |
700-705 |
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Vibratory Gyroscope |
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Yu. Bezkorovainyi |
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62 |
V.Chikovani, S.Golovach |
Rate Vibratory Gyroscopes Bias Minimization by the |
706-709 |
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Standing Wave Angle Installation |
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66 |
O.Leiko, O. Drozdenko, |
Acoustic Remote Sensing Piezoceramic Transducers |
710-713 |
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A. Derepa, A. Sviatnenko |
with Internal Screen |
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70 |
S.Vyshnevyi |
Filtration of images with constant brightness areas |
714-718 |
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corrupted by additive noise |
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Y.Onykiienko, V.Pilinsky, |
Analysis of EMI and Efficiency of the GaN and Si |
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73 |
O.Smolenska, V.Baran, |
719-722 |
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MOSFET converters |
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V.Lazebnyi, N.Iakunina |
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V. Dіdkovskyi, O. Korzhyk, |
About Peculiarities of Restricting the Energy Range of |
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93 |
S. Naida, S. Kurdiuk, |
Action of Communication Underwater Systems in the |
723-727 |
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V. Nizhynska |
Shallow Sea |
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99 |
I. Tovkach, S. Zhuk, |
Recurrent algorithm of passive location in sensor |
728-732 |
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O. Neuimin, V. Chmelov |
network by angle of arrival of a signal |
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106 |
N.Yeliseyeva, S.Berdnik, |
Directive Gain and Radiation Resistance of Vertical |
733-736 |
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V.Katrich |
Dipole Placed over Rectangular Metal Screen |
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2020 IEEE 40th International Conference on Electronics and Nanotechnology (ELNANO) |
14 |