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Alexander N. Prokopenya
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2020 – today
- 2024
- [c19]Alexander N. Prokopenya
, Mukhtar Zh. Minglibayev
Modeling the Dynamics of a Multi-planetary System with Anisotropic Mass Variation. ICCS (5) 2024: 181-196 - 2023
- [j27]Zhanar U. Imanova
Modelling the Evolution of the two-Planetary three-Body System of variable Masses. Math. Model. Anal. 28(4): 636-652 (2023) - [j26]Alexander N. Prokopenya
Resonances and Periodic Motions of Atwood's Machine with Two Oscillating Weights. Program. Comput. Softw. 49(5): 433-440 (2023) - [c18]Alexander Chichurin
Symbolic-Numeric Computation in Modeling the Dynamics of the Many-Body System TRAPPIST. ICCS (3) 2023: 469-482 - 2022
- [j25]Alexander N. Prokopenya
Derivation of Evolutionary Equations in the Many-Body Problem with Isotropically Varying Masses Using Computer Algebra. Program. Comput. Softw. 48(2): 107-115 (2022) - [c17]Alexander N. Prokopenya
Stability Analysis of Periodic Motion of the Swinging Atwood Machine. CASC 2022: 288-299 - [i1]Lukasz Czekaj, Tomasz Biegus, Robert Kitlowski, Stanislaw Raczynski, Mateusz Olszewski, Jakub Dziedzic
On the problem of entity matching and its application in automated settlement of receivables. CoRR abs/2205.10678 (2022) - 2021
- [j24]Alexander N. Prokopenya
Searching for Equilibrium States of Atwood's Machine with Two Oscillating Bodies by Means of Computer Algebra. Program. Comput. Softw. 47(1): 43-49 (2021) - [c16]Boleslaw Borkowski, Alexander N. Prokopenya
Methods of Measuring Diversity of Structures. KES 2021: 4310-4319 - [c15]Gerard Wawrzyniak, Imed El Fray, Mateusz Klos, Alexander N. Prokopenya:
Concept of an electronic form based on XML that ensures a high level of interoperability and security. PACIS 2021: 68 - 2020
- [j23]Mukhtar Zh. Minglibayev, Alexander N. Prokopenya
Computing Perturbations in the Two-Planetary Three-Body Problem with Masses Varying Non-isotropically at Different Rates. Math. Comput. Sci. 14(2): 241-251 (2020) - [j22]Alexander N. Prokopenya
Construction of a Periodic Solution to the Equations of Motion of Generalized Atwood's Machine using Computer Algebra. Program. Comput. Softw. 46(2): 120-125 (2020) - [c14]Alexander N. Prokopenya
Analytical Computations in Studying Translational-Rotational Motion of a Non-stationary Triaxial Body in the Central Gravitational Field. CASC 2020: 478-491
2010 – 2019
- 2019
- [j21]Alexander N. Prokopenya
Modelling Atwood's Machine with Three Degrees of Freedom. Math. Comput. Sci. 13(1-2): 247-257 (2019) - [j20]Alexander N. Prokopenya
Applications of Computer Algebra in the Study of the Two-Planet Problem of Three Bodies with Variable Masses. Program. Comput. Softw. 45(2): 73-80 (2019) - 2018
- [j19]Alexander N. Prokopenya
Numerical-Symbolic Methods for Searching Relative Equilibria in the Restricted Problem of Four Bodies. Math. Model. Anal. 23(3): 507-525 (2018) - [j18]Boleslaw Borkowski
On Mathematical modelling of Synthetic Measures. Math. Model. Anal. 23(4): 699-711 (2018) - [j17]Ryszard Kozera
Application of Computer Algebra to Photometric Stereo with Two Light Sources. Program. Comput. Softw. 44(2): 112-119 (2018) - [j16]Ryszard Kozera
Application of Computer Algebra to the Reconstruction of Surface from Its Photometric Images. Program. Comput. Softw. 44(6): 546-553 (2018) - [c13]Ryszard Kozera
Second-Order Algebraic Surfaces and Two Image Photometric Stereo. ICCVG 2018: 234-247 - 2017
- [j15]Thierry N. Dana-Picard
Foreword. Math. Comput. Sci. 11(3-4): 251-252 (2017) - [j14]Mukhtar Zh. Minglibayev
Three-Body Problem with Variable Masses that Change Anisotropically at Different Rates. Math. Comput. Sci. 11(3-4): 383-391 (2017) - [j13]Alexander N. Prokopenya
Motion of a Swinging Atwood's Machine: Simulation and Analysis with Mathematica. Math. Comput. Sci. 11(3-4): 417-425 (2017) - [j12]Ryszard Kozera
Application of computer algebra for the reconstruction of surfaces from their photometric stereo images. Program. Comput. Softw. 43(2): 98-104 (2017) - [j11]Alexander N. Prokopenya
Investigation of the restricted problem of three bodies of variable masses using computer algebra. Program. Comput. Softw. 43(5): 289-293 (2017) - [c12]Alexander N. Prokopenya
Symbolic-Numerical Analysis of the Relative Equilibria Stability in the Planar Circular Restricted Four-Body Problem. CASC 2017: 329-345 - 2016
- [j10]Alexander N. Prokopenya
Approximation of a quantum algorithm for order finding. Program. Comput. Softw. 42(2): 90-98 (2016) - [c11]Ryszard Kozera
Orthogonal Illuminations in Two Light-Source Photometric Stereo. CISIM 2016: 402-415 - 2015
- [j9]Alexander N. Prokopenya
Simulation of a quantum algorithm for phase estimation. Program. Comput. Softw. 41(2): 98-104 (2015) - [c10]Alexander N. Prokopenya
Approximate Quantum Fourier Transform and Quantum Algorithm for Phase Estimation. CASC 2015: 391-405 - 2014
- [j8]Alexander N. Prokopenya
Symbolic calculations in studying the problem of three bodies with variable masses. Program. Comput. Softw. 40(2): 79-85 (2014) - [c9]Alexander N. Prokopenya
On Integrability of Evolutionary Equations in the Restricted Three-Body Problem with Variable Masses. CASC 2014: 373-387 - 2013
- [j7]Dzmitry A. Budzko, Alexander N. Prokopenya
Symbolic-numerical methods for searching equilibrium states in a restricted four-body problem. Program. Comput. Softw. 39(2): 74-80 (2013) - [j6]Vladimir P. Gerdt, Alexander N. Prokopenya
Simulation of quantum error correction by means of QuantumCircuit package. Program. Comput. Softw. 39(3): 143-149 (2013) - [c8]Vladimir P. Gerdt, Alexander N. Prokopenya
Simulation of Quantum Error Correction with Mathematica. CASC 2013: 116-129 - 2012
- [j5]Alexander N. Prokopenya
Hamiltonian normalization in the restricted many-body problem by computer algebra methods. Program. Comput. Softw. 38(3): 156-166 (2012) - [c7]Dzmitry A. Budzko, Alexander N. Prokopenya
Stability of Equilibrium Positions in the Spatial Circular Restricted Four-Body Problem. CASC 2012: 72-83 - 2011
- [c6]Dzmitry A. Budzko, Alexander N. Prokopenya
On the Stability of Equilibrium Positions in the Circular Restricted Four-Body Problem. CASC 2011: 88-100 - [c5]Vladimir P. Gerdt, Alexander N. Prokopenya
The Circuit Model of Quantum Computation and Its Simulation with Mathematica. MMCP 2011: 43-55 - 2010
- [j4]Dzmitry A. Budzko, Alexander N. Prokopenya
Symbolic-numerical analysis of equilibrium solutions in a restricted four-body problem. Program. Comput. Softw. 36(2): 68-74 (2010) - [j3]Vladimir P. Gerdt, Alexander N. Prokopenya
Some algorithms for calculating unitary matrices for quantum circuits. Program. Comput. Softw. 36(2): 111-116 (2010)
2000 – 2009
- 2009
- [c4]Vladimir P. Gerdt, Robert Kragler, Alexander N. Prokopenya
A Mathematica Package for Simulation of Quantum Computation. CASC 2009: 106-117 - 2007
- [j2]Alexander N. Prokopenya
Symbolic computation in studying stability of solutions of linear differential equations with periodic coefficients. Program. Comput. Softw. 33(2): 60-66 (2007) - [c3]Evgenii A. Grebenikov, Ersain V. Ikhsanov, Alexander N. Prokopenya
Studying the Stability of the Second Order Non-autonomous Hamiltonian System. CASC 2007: 181-194 - 2006
- [j1]Alexander N. Prokopenya
Some symbolic computation algorithms in cosmic dynamics problems. Program. Comput. Softw. 32(2): 71-76 (2006) - [c2]Evgenii A. Grebenikov, Ersain V. Ikhsanov, Alexander N. Prokopenya:
Numeric-Symbolic Computations in the Study of Central Configurations in the Planar Newtonian Four-Body Problem. CASC 2006: 192-204 - 2005
- [c1]Carlo Cattani
Symbolic Calculations in Studying the Stability of Dynamically Symmetric Satellite Motion. CASC 2005: 93-104
Coauthor Index
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last updated on 2024-07-20 21:20 CEST by the dblp team
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