PAVEL OGANESYAN

[email protected]         +7-961-276-33-15         RG | Scopus | SO

Education

SPECIALIST DEGREE | 2011 | SOUTHERN FEDERAL UNIVERSITY

·           Faculty of mathematics, mechanics, and computer science

·            Specialty: applied mathematics and informatics

·            Qualification: mathematician, system programmer

PHD | 2020 | SOUTHERN FEDERAL UNIVERSITY

·            Speciality: Solid Mechanics

·           Thesis: ?Oscillations ofinhomogeneous electroelastic bodies of finite dimensions?

Experience

●         IOS DEVELOPER, LLC ?TOCHKA KIPENIA?, 2011-2012

●         JUNIOR RESEARCHER, Aviation technology laboratory, Southern Science Center of Russian Academy of Science, 2013-2014

ASSISTANT, department of Mathematical Modeling, Institute of mathematics, mechanics, and computer science, Southern federal university, 2014–2020

●         LEAD SOFTWARE DEVELOPER, LLC ?Skytecs?, 2015-2018: Leading full-stack Ruby on Rails team, mentoring Ruby and Java (Android) developers.

●         SENIOR LECTURER, department of Mathematical Modeling, Institute of mathematics, mechanics, and computer science, Southern federal university, 2020–2021

●         ASSOCIATE PROFESSOR, department of Mathematical Modeling, Institute of mathematics, mechanics, and computer science, Southern federal university, 2021, current job.

●         GAME PRODUCER, GEEKY HOUSE LLC, 2023-2024, Research and Development in the area of 3D worlds generation using AI

●         EXPERT METHODOLOGIST, 2022-2024, All-Russian competition for game developers “Start the Game”

Scientific Interests

●         Mathematical modeling of composite structures using finite element method

●          Scientific software development

●         Topology optimization

Educational activities

●         “Physics in games”, 2nd  year Master's degree, Lectures and Seminars

●         “Mathematical models” in game development, 1st    year Master's degree, Lectures and Seminars

●         “Full-stack  web  development  with  Ruby  on  Rails”,  3rd   year  Bachelor’s  degree,  Lectures  and Seminars

●         “Paradigms  and  programming  technologies”,  2nd    and 3rd  year Bachelor’s degree, Lectures and Seminars

●         “Game Design Fundamentals”, 1st year Master's degree, Lectures and Seminars

●         “Databases”, 3rd   year Bachelor’s degree, Seminars

Achievements

●         Laureate of the competition "Aircraft Builder of the Year 2011" in the nomination "For the

creation of a new scientific model of a physical phenomenon or technological process" as part of a team of authors.

●         Winner of the regional stage of the hackathon "Digital Breakthrough"

●         Winner of the UMNIK-2018 competition, the project "Development of a topology optimization module based on the finite element method for creating inhomogeneous structures using additive

technologies"

●         Organizer ofMMCS Game Jam and MAGnUS Game Jam: 45 games submitted by participants in total.

●          Don IT Educator Award 2023, winner in the “Companies' Choice” nomination.

●         Participated in multiple research projects supported by Russian Foundation for Basic Research (8 projects) and Russian Science Foundation (4 projects).

List of publications (total number of publications up to date: 114)

1.          A.N. Soloviev, P.A. Oganesyan, E. I. Fomenko, Investigation of the Efficiency of a Shear

Piezoelectric Generator Using Porous Piezoceramics, In book: Physics and Mechanics ofNew Materials and Their Applications (pp.429-435), January 2023, DOI:10.1007/978-3-031-21572-8_35

2.          Do, T.B., Nasedkin, A., Oganesyan, P., Soloviev, A. Multilevel Modeling of 1-3 Piezoelectric Energy Harvester Based on Porous Piezoceramics. Journal of Applied and Computational Mechanics,  2023, 9(3), pp. 763–774

3.          Tatiana Martynova, Galina Muratova, Pavel Oganesyan, Olga Shtein, The Numerical Solution of Large-Scale Generalized Eigenvalue Problems Arising from Finite-Element Modeling of Electroelastic      Materials, January 2023, Symmetry 15(1):171, DOI:10.3390/sym15010171

4.          Steinberg, B.Ya., Steinberg, O.B., Oganesyan, P.A., Veselovskiy, V.V., Zhivykh, N.A., Fast Solvers for Systems of Linear Equations with Block-Band Matrices, East Asian Journal on Applied Mathematics, 2022, 13(1), pp. 47–58

5.          Oganesyan P.A., Shtein O.O., Realization of basic operations for sparse matrices in the context  of solving the generalized eigenvalue problem in ACELAN-COMPOS complex. Advanced Engineering Research (Rostov-on-Don). 2023. Т. 23. № 2. С . 121-129.

6.          Moskalenko D.A., Oganesyan P.A., Soloviev A.N., Yeh M.Y., Yang C.D. Interactive editor for  finite element modelling in ACELAN-COMPOS package. 10th anniversary international conference on "Physics and Mechanics of new Materials and their Applications" (PHENMA 2021-2022)

7.          Oganesyan P.A., Fomenko E.I. PIEZOELECTRIC GENERATOR BASED ON SHEAR

OSCILLATIONS. Modern Problems in Modeling Materials for Mechanical, Medical and Biological  Applications (MPMM&A-2022). Theses ofthe reports of the second international conference. Editor A.A. Matrosov, A.N. Soloviev, I.A. Serebryanaya. Rostov-on-Don, 2022. P. 18.

8.          Fiadotau, Mikhail & Oganesyan, Pavel & Demyanenko, Yana. (2021). LANGUAGE AND COMMUNICATION SKILLS IN AN INTERNATIONAL GAME JAM: A PILOT STUDY WITH  RUSSIAN PARTICIPANTS. 8161-8168. 10.21125/iceri.2021.1846.

9.          Oganesyan P.A., Skaliukh A.S., Soloveva A.A., Epikhin A.N. MODELING ULTRASONIC

MEDICAL DEVICES USING PIEZOACTIVE COMPOSITE MATERIALS Modern Problems in

Modeling Materials for Mechanical, Medical, and Biological Applications. Theses of reports international conference. MINISTRY OF SCIENCE AND HIGHER EDUCATION OF THE RUSSIAN

FEDERATION, DON STATE TECHNICAL UNIVERSITY (DSTU), LABORATORY

"FUNCTIONALLY GRADIENT AND COMPOSITE MATERIALS" (DSTU), LABORATORY

"MECHANICS OF BIOMATERIALS"(DSTU), DEPARTMENT "THEORETICAL AND APPLIED MECHANICS" (DSTU). 2021. P. 12.

10.        Soloviev A., Oganesyan P., Do Do.T.B. MULTISCALE MATHEMATICAL AND

NUMERICAL MODELING OF THE COMPOSITE OF 1-3 CONNECTIVITY USING POROUS  PIEZOELECTRIC CERAMICS. Mathematical Modeling, Inverse Problems and Big Data. 2021. P. 13-14.

11.        Nadolin D., Nasedkin A., Oganesyan P., Soloviev A. REPRESENTATIVE VOLUME

ELEMENTS OF COMPOSITE MATERIALS WITH VARIOUS TYPES OF CONNECTIVITY IN

ACELAN-COMPOS PACKAGE AND INFLUENCE OF INTERNAL STRUCTURE ON EFFECTIVE MODULI. Mathematical Modeling, Inverse Problems and Big Data. 2021. С . 25.

12.        Solovev A.N., Binh Do.T., Chebanenko V.A., Oganesyan P.A. STUDY OF THE EFFICIENCY OF USING POROUS PIEZOCERAMICS IN A STACK-TYPE PIEZOELECTRIC GENERATOR.

Physics and Mechanics ofNew Materials and Their Applications. Abstracts & Schedule. Kitakyushu, Japan, 2021. P. 255.

13.        Solovev A.N., Nasedkin A.V., Binh Do.T., Chebanenko V.A., Oganesyan P.A. THE USE OF POROUS PIEZOELECTRIC CERAMICS IN A PIEZOELECTRIC COMPOSITE OF 1-3

CONNECTIVITY. Physics and Mechanics ofNew Materials and Their Applications. Abstracts & Schedule. Kitakyushu, Japan, 2021. P. 257.

14.        Nasedkin, Andrey & Oganesyan, Pavel & Soloviev, Arkady. (2020). Analysis of Rosen type

energy harvesting devices from porous piezoceramics with great longitudinal piezomodulus. ZAMM -

Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik.

101. 10. 1002/zamm.202000129.

15.        A., Kudimova & D., Nadolin & Nasedkin, Andrey & Oganesyan, Pavel & Solov’ev, A.. (2019). ANALYSIS OF PROPERTIES FOR GRANULATED AND POROUS PIEZOCOMPOSITES USING

ACELAN-COMPOS IMPROVEDALGORITHM FORMING REPRESENTATIVE VOLUMES WITH ISOLATED INCLUSIONS. 34-39. 10.23947/itno.2019.34-39.

16.        Solov’ev, A. & Chebanenko, Valerii & Parinov, Ivan & Oganesyan, Pavel. (2019). STUDY OF    OSCILLATION OF A BIMORPH PLATE TAKING INTO ACCOUNT THE NONLINEARITY OF THE ELECTRIC POTENTIAL. Science in the South of Russia. 15. 3. 10.7868/S25000640190301. In Russian.

17.        Gerasimenko, T. & Kurbatova, N. & Nadolin, Dmitry & Nasedkin, Andrey & Nasedkina, Anna & Oganesyan, Pavel & Skaliukh, A. & Solov’ev, A.. (2019). Homogenization of Piezoelectric Composites   with Internal Structure and Inhomogeneous Polarization in ACELAN-COMPOS Finite Element Package.  10.1007/978-3-030-17470-5_8.

18.        Solov’ev, A. & Chebanenko, Valerii & Parinov, Ivan & Oganesyan, Pavel. (2019). APPLIED   THEORY OF BENDING VIBRATIONS OF A PIEZOELECTRIC BIMORPH WITH A QUADRATIC ELECTRIC POTENTIAL DISTRIBUTION. Materials Physics and Mechanics. 42. 65-73.

10.18720/MPM.4212019_7.

19.        Solov’ev, A. & Chebanenko, Valerii & Oganesyan, Pavel & Chao, Shih-Fong & Liu, Y.-M. (2019). APPLIED THEORY FOR ELECTRO-ELASTIC PLATES WITH NON-HOMOGENEOUS POLARIZATION. Materials Physics and Mechanics. 42. 242. 10.18720/MPM.4222019_ 11.

20.        Soloviev, Arkady & Duong, Le & Oganesyan, Pavel & Kirillova, Evgenia. (2019). Modeling   Energy Harvesting Devices with Non-Uniformly Polarized Piezoceramic Materials. Applied Mechanics and Materials. 889. 322-328. 10.4028/www.scientific.net/AMM.889.322.

21.        Skaliukh, A. & Oganesyan, Pavel & Solovieva, A. & Gerasimenko, T.. (2019). Finite Element Modeling of Surgical Scalpel with Piezoelectric Actuator. Mechanical Engineering and Computer

Science. 15-23. 10.24108/1218.0001442.

22.        Skaliukh, A. & Gerasimenko, T. & Oganesyan, Pavel & Solov’ev, A. & Solovieva, A.. (2019).  Geometric and Physical Parameters Influence on the Resonant Frequencies of Ultrasonic Vibrations of a Medical Scalpel. 10.1007/978-3-030-19894-7_39.

23.        Minaev, M. & Oganesyan, Pavel. (2018). EFFECTIVE STRUCTURES FOR STORING

MATERIAL PROPERTIES OF COMPONENTS IN THE ACELAN COMPOS PACKAGE. 274-277. 10.23947/itno.2018.1.274-277.

24.        Paterikin, A. & Nadolin, D. & Oganesyan, Pavel. (2018). A SECURE RUNTIME

ENVIRONMENT FOR PYTHON COMMANDS FOR AUTOMATING COMPOSITE MODELING PROCESSES. 270-273. 10.23947/itno.2018.1.270-273.

25.        Soloviev, Arkadiy & Oganesyan, Pavel & Romanenko, Pavel & Duong, Le & Lesnjak, Olga.

(2018). Applied Theory of the Vibration of Inhomogeneously Polarized Axisymmetric Bimorph Piezoelements. 10.1007/978-3-319-78919-4_26.

26.        Kurbatova, Natalia & Nadolin, Dmitry & Nasedkin, Andrey & Oganesyan, Pavel & Solov’ev, A.. (2018). Finite element approach for composite magneto-piezoelectric materials modeling in

ACELAN-COMPOS package. 10.1007/978-981-10-6895-9_5.

27.        Kudimova, Anna & Mikhayluts, Ivan & Nadolin, Dmitryi & Nasedkin, Andrey & Nasedkina, Anna & Oganesyan, Pavel & Solov’ev, A. (2017). Computer design ofporous and ceramic

piezocomposites in the finite element package ACELAN. Procedia Structural Integrity. 6. 301-308. 10. 1016/j.prostr.2017.11.046.

28.        Solov’ev, A. & Oganesyan, Pavel & Skaliukh, A. & Duong, Le & Gupta, Vijay & Panfilov, Ivan.

(2017). Comparison Between Applied Theory and Final Element Method for Energy Harvesting Non-homogeneous Piezoelements Modeling. 10.1007/978-3-319-56062-5_40.

29.        Shevtsov, Sergey & Zhilyaev, Igor & Oganesyan, Pavel & Snezhina, Natalia & Lyashenko, Elena & Wu, Jiing-Kae. (2017). STRUCTURAL OPTIMIZATION AND LAY-UP DESIGN FOR

COMPOSITE SHELL-LIKE COWLING THROUGH VIRTUAL WIND TUNNEL TESTING AND PEAK STRESS REDUCTION.

30.        Kurbatova, N. & Nadolin, Dmitry & Nasedkin, Andrey & Nasedkina, Anna & Oganesyan, Pavel & Skaliukh, A. & Solov’ev, A.. (2017). Models of Active Bulk Composites and New Opportunities of the ACELAN Finite Element Package. 10.1007/978-981-10-3797-9_8.

31.        Shevtsova, Maria & Zhilyaev, Igor & Oganesyan, Pavel & Shevtsova, Varvara. (2017).

Optimization of wall thickness and lay-up design for composite structure with open-shell geometry. International Journal of Computational Methods and Experimental Measurements. 5. 190-199.

10.2495/CMEM-V5-N2-190-199.

32.        Skaliukh, A. & Gerasimenko, T. & Oganesyan, Pavel & Solovieva, A.. (2017). Effect of geometric and physical parameters on resonant frequencies of ultrasonic vibrations of elastic and

piezoelectric element system. Vestnik of Don State Technical University. 17. 5-13. 10.23947/1992-5980-2017-17-4-5-13.

33.        Shevtsov, Sergey & Zhilyaev, Igor & Oganesyan, Pavel & Axenov, Vladimir. (2016).   Optimization of Wall Thickness and Lay-Up for the Shell-Like Composite Structure Loaded by Non-Uniform Pressure Field. 10. 1063/1.4972736.

34.        Shevtsov, Sergey & Zhilyaev, Igor & Oganesyan, Pavel & Axenov, Vladimir. (2016). Material  Distribution Optimization for the Shell Aircraft Composite Structure. Curved and Layered Structures. 3. 10.1515/cls-2016-0017.

35.        Oganesyan, Pavel & Zhilyaev, Igor & Shevtsov, Sergey & Wu, J.-K. (2016). Optimized Design of the Wind Turbine’s Composite Blade to Flatten the Stress Distribution in the Mounting Areas.

10.1007/978-3-319-22762-7.

36.        Solovev, A. & Oganesyan, Pavel & Skaliuh, A. (2015). Comparative analysis of the

nonhomogenioulsy polarized piezodevices simulation results obtained with Acelan and applied theory. Actual directions of scientific researches of the XXI century: theory and practice. 3. 321-325.

10.12737/16035.

37.        Shevtsov, Sergey & Oganesyan, Pavel & Soloviev, Arkady & Maria, Shevtsova. (2015).

Simulation of optimal polarization for three-layered piezoelectric transducer using ACELAN package.

38.        Skaliukh, A. & Solov’ev, A. & Oganesyan, Pavel. (2015). Modeling of Piezoelectric Elements with Inhomogeneous Polarization in ACELAN. Ferroelectrics. 483. 95-101.

10. 1080/00150193.2015.1059138.

39.        Shevtsov, Sergey & Zhilyaev, Igor & Oganesyan, Pavel & Akopyan, Vladimir. (2015). A    Probabilistic Approach to the Crack Identification in a Beam-like Structure Using Monitored Mode Shapes and Their Curvature Data with Uncertainty. 10.1007/978-3-319-20463-5_34.

40.        Solov’ev, A. & Oganesyan, Pavel & T.G., Lupeiko & Kirillova, Evgenia & Chang, Shun-Hsyung & C.-D, Yang. (2015). Modeling of non-uniform polarization for multi-layered piezoelectric transducer    for energy storage devices. 175. 10.1007/978-3-319-26324-3_46.

41.        A. Skaliukh, A. Nasedkin, P. Oganesyan and A. Soloviev, "Linear and nonlinear models of

electroelasticity in the software package ACELAN," 2015 Joint IEEE International Symposium on the    Applications ofFerroelectric (ISAF), International Symposium on Integrated Functionalities (ISIF), and Piezoelectric Force Microscopy Workshop (PFM), 2015, pp. 36-39, doi: 10. 1109/ISAF.2015.7172662.

42.        Oganesyan, Pavel. (2014). MODELING OF INHOMOGENEOUSLY POLARIZED

PIEZOCERAMIC BIMORPH USING ACELAN PACKAGE. Actual directions of scientific research of the XXI century: theory and practice. 2. 233-236. 10.12737/6392. In Russian.

43.        Shevtsov, Sergey & Zhilyaev, Igor & Oganesyan, Pavel & Evlanov, A. & Tarasov, Ilya. (2014).   THE MULTI-OBJECTIVE CURE PROCESS OPTIMIZATION TO MANUFACTURE HIGH LOADED COMPOSITE PARTS WITH VARIED WALLS THICKNESS. International Conference on Innovative     Technologies, IN-TECH 2014 At: Leiria, Portugal

44.        Oganesyan, Pavel & Solov’ev, A. & Skaliukh, A. (2014). Modeling of Piezoelectric Elements with Inhomogeneous Polarization in ACELAN. 10. 13140/RG.2.1.4942.5445.