Elementarnaya geometriya : metody resheniya zadach : ucheb. pos. / G. V. Arutyunyan, E. V. Marchevskaya, I. K. Marchevskii. - Moskva : Izd-vo MGTU im. N. E. Baumana, 2010. - 222, [1] s. : il.; 22 sm.; ISBN 978-5-7038-3433-6
Elementy funktsionalnogo analiza : ucheb. pos. / E. A. Vlasova, I. K. Machevskii. - Sankt-Peterburg [i dr.] : Lan, 2015. - 397 s.; 21 sm.; ISBN 978-5-81141958-6 : 1000 ekz.
I.K. Marchevsky, V. V. Puzikova, “Domain decomposition method usage for parallelization and extra preconditioning of viscous incompressible flow simulation by using the LS-STAG method”, Proceedings of ISP RAS, 35:5 (2023), 287–302
2.
I.K. Marchevsky, Yu. A. Izmaylova, M. A. Erofeeva, D. Yu. Kobzar, “On open third-party libraries usage in implementation of vortex particle methods of computational fluid dynamics”, Proceedings of ISP RAS, 35:2 (2023), 181–200
2022
3.
O. S. Kotsur, G. A. Shcheglov, I. K. Marchevsky, “Approximate Weak Solutions to the Vorticity Evolution
Equation for a Viscous Incompressible Fluid
in the Class of Vortex Filaments”, Rus. J. Nonlin. Dyn., 18:3 (2022), 423–439
4.
I.K. Marchevsky, S. R. Serafimova, “Analytic and semi-analytic integration of logarithmic and Newtonian potentials and their gradients over line segments and rectilinear panels”, Num. Meth. Prog., 23:2 (2022), 137–152
2019
5.
I. K. Marchevskii, G. A. Shcheglov, “The algorithm of the vortex sheet intensity determining in 3D incompressible flow simulation around a body”, Matem. Mod., 31:11 (2019), 21–35; Math. Models Comput. Simul., 12:4 (2020), 464–473
E. A. Mikhailov, I. K. Marchevskii, K. S. Kuzmina, “Iterative approach to solving boundary integral equations
in the two-dimensional vortex methods
of computational hydrodynamics”, Sib. Zh. Ind. Mat., 22:4 (2019), 54–67; J. Appl. Industr. Math., 13:4 (2019), 672–684
E. V. Smirnova, I. K. Marchevsky, V. O. Bondarchuk, “Axisymmetric viscous incompressible flow simulation by using the Particle finite element PFEM-2 method in the open source Kratos code”, Proceedings of ISP RAS, 30:2 (2018), 263–284
8.
I. K. Marchevsky, V. V. Puzikova, “The efficiency comparison of solvers for sparse linear algebraic equations systems based on the BiCGStab and FGMRES methods”, Proceedings of ISP RAS, 30:1 (2018), 195–214
2017
9.
V. D. Galepova, V. V. Lukin, I. K. Marchevsky, I. N. Fufaev, “Comparative study of WENO and Hermite WENO limiters for gas flows numeriсal simulations using the RKDG method”, Keldysh Institute preprints, 2017, 131, 32 pp.
K. S. Kuzmina, I. K. Marchevskii, V. S. Moreva, “Vortex sheet intensity computation in incompressible flow simulation around airfoil by using vortex methods”, Matem. Mod., 29:10 (2017), 20–34; Math. Models Comput. Simul., 10:3 (2018), 276–287
K. S. Kuzmina, I. K. Marchevsky, “On the estimations of efficiency and error of fast algorithm in vortex element method”, Proceedings of ISP RAS, 28:1 (2016), 259–274
I. K. Marchevsky, V. V. Puzikova, “Efficiency study of computation parallelization for viscous incompressible flow simulation on computing systems with shared memory by the LS-STAG method”, Num. Meth. Prog., 16:4 (2015), 595–606
S. R. Grechkin-Pogrebnyakov, K. S. Kuzmina, I. K. Marchevsky, “An implementation of vortex methods for modeling 2D incompressible flows using the CUDA technology”, Num. Meth. Prog., 16:1 (2015), 165–176
2014
14.
I. K. Marchevsky, V. V. Puzikova, “Performance analysis of iterative methods of combined linear algebraic equations solution”, Mat. Mod. Chisl. Met., 2014, no. 4, 37–52
I. K. Marchevsky, G. A. Scheglov, “Application of parallel algorithms for solving hydrodynamic problems by the vortex element method”, Num. Meth. Prog., 11:1 (2010), 105–110
Аэродинамическая неустойчивость системы профилей V. I. Van'ko, I. K. Marchevsky, G. A. Scheglov Scientic seminar «Actual problems of geometry and mechanics » named after Prof. V.V. Trofimov November 19, 2004 18:30