Software Engineer

ALEXANDER SEROV

Address: kv. **, korp. ***, Zelenograd, Moscow, Russia, 124498

Phones: +7-499-***-**** (home), +7-963-***-**** (mob.)

E-mail: : ******@*****.***

HIGHLIGHTS

Solid background in physics, mathematics, engineering and philosophy

Excellent computer proficiency

Highly committed to continuously updating my professional knowledge

Excellent communication and interpersonal skills

Strong analytical mind, self-organized, quick learner, hard worker

ACADEMIC BACKGROUND

1999-2002 Philosophy Doctor Degree in Numerical Methods and Simulation

Institute for Design Problems in Microelectronics of Russian Academy of Sciences, Moscow,

Zelenograd, Russia

Specialization: Computational Physics

PhD Thesis: “Numerical Method of Non-Steady Stephan Problem Solution at the

Simulation of Semiconductor Monocrystals Growth from the Melt”

1990-1995 Physicist-Researcher’s Diploma

Research Institute “Nauchny Center”, Moscow, Zelenograd, Russia.

Specialization: Physics of semi-conductors and dielectrics

1982-1988 Master Degree in Physics & Mathematics with first class honors

Moscow Institute of Physics and Technology (MPTI), Moscow, Russia

Specialization: Quantum radio-physics.

MD Thesis: “Experimental Investigation of Quantum Size Effects in Thin Films of CdTe”

WORK EXPERIENCE

09.2009 – Present Senior Researcher

Machinery Engineering Research Institute, Russian Academy of Science, Moscow, Russia

URL: http://www.ippm.ru

Research & Development at the field of methods for automated data processing and searching for

hidden patterns (Data-Mining):

Numerical method has been developed for the automated analysis of multidimensional sets of

experimental data

Numerical method has been developed that realize combinatorial Group Method of Data Handling

(GMDH) for the arbitrary number of arguments. Software realization of the numerical method has

been developed. Code is developed in MATLAB environment. Developed method is implemented

for the problem solution of automatic diagnosis of the investigated technical systems: technical

system identification, clustering of experimental data, automated searching for the optimal model,

pattern recognition at diagnosis problem, forecasting of characteristics values.

Software “S-Discriminant” has been developed for the automated processing of vibroacoustic data

acquired during the monitoring process of machinery equipment. Software implements methods of

spectral analysis, statistical analysis, trend analysis and the method of S – discriminants. Code is

developed as a standalone MATLAB application that works together with C# applications (DB

operations and report generation) in MS Windows operating systems. Software has been used for

the condition monitoring of gas turbine engines.

Alexander Serov

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Development of new numerical method that extends the possibilities of Independent Component

Analysis has been started. Method will be applied for the solution of blind source separation

problems.

08.2010 – 11.2010 Contractor

MikroMasch Ltd, Moscow, Zelenograd, Russia

URL: http://www.spmtips.com

Research & Development at the field of Artificial Intelligence

Data-Base reconfiguration software tool has been developed. Software has been developed as C#

code in Microsoft Visual Studio 2008 environment. It may be used for the following set of

activities with MS SQL Server-2005 Data-Base: creation, deletion, reconfiguration of DB or tables,

online edition of tables.

03.2010 – 06.2010 Contractor

ANKUD Ltd, Moscow, Zelenograd, Russia

URL: http://www.ancud.ru

Research & Development at the field of information protection systems:

Methodology has been developed for the numerical estimation of the effectiveness of

software/hardware realization of information protection systems.

Software has been developed for the numerical investigation of estimation methodology. C++ code

has been developed in Microsoft Visual Studio 2008 environment. Numerical investigation of

proposed methodology has been done.

07.2009 – 10.2009 Contractor

Technical Research Center “Turbocontrol”/Public Corporation “Gazprom”, Moscow, Russia

URL: http://www.turbocontrol.ru

Method development for the automatic efficiency control of the registration tract equipment of the

vibroacoustic monitoring system:

Numerical model of control algorithms has been developed in MATLAB environment. Algorithms

functioning have been investigated at numerical experiments.

Software has been developed for the use at the monitoring of gas turbine engines. C++ code has

been developed in CodeGear environment.

09.2008 – 06.2009 Investigator

Research Center “Infocomproject”/ Technical Research Center “Turbocontrol”, Moscow, Russia

URL: http://www.turbocontrol.ru

Development of the architecture of the automatic diagnostics system

Research & Development at the field of methods and algorithms for the automatic diagnostics of the

industrial equipment

Development of the numerical method and control algorithms (participation as a team member)

2006-08.2008 Head of the Information Technology Department

Scan-Plus Ltd., Moscow, Russia

URL: http://www.scan-plus.ru

Management of projects “Regional segments of United System of Catalogue” (Projects for Central

Bank of Russian Federation)

Development of numerical methods for the investigation of ultrasound waves scattering by phononic

crystals:

Numerical method of ultrasound waves scattering by phononic crystal has been developed. Method

is based on the FETD realization of Galerkin technique.

Software realization of proposed numerical method is developed as C code.

Alexander Serov

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2005-2006 Principal specialist

Scan-Plus Ltd., Moscow, Russia

URL: http://www.scan-plus.ru

Management of project “The system of reserve copying of information resources” (The project for

company “Gazexport”)

Development of numerical methods for the investigation of electromagnetic fields’ configuration:

Numerical method of Maxwell equations solution based on Finite Differences Analysis has been

developed

Numerical method for the simulation of ions transfer in high-frequency electro-magnetic fields has

been developed

2003-2005 Senior research scientist

Institute for Design Problems in Microelectronics of Russian Academy of Sciences, Moscow,

Zelenograd, Russia.

URL: http://www.ippm.ru

Development and implementation of numerical methods for the investigation of Micro-Electro-

Mechanical Systems (MEMS):

Full 3D numerical model of electrostatic MEMS has been developed and investigated using

simulation method based on Finite Elements Analysis

Methods of automatic generation of MEMS macromodels based on a Mass-Spring Model have

been developed. Methods include approximation of device structural parameters.

2002 – 2003 Postdoctoral Fellow

Laboratory of time-of-flight mass spectrometry (University of Manitoba), Winnipeg, Manitoba, Canada

URL: http://umanitoba.ca

Development and investigation of ion separation methods

Ion separation methods in RF-ion guide have been investigated with axial electric field and gas

counter flow

Mathematical model for ions transfer in quadrupole region of mass spectrometer have been

developed and implemented

Software tools for experimental mass-spectrometry data analysis have been developed as C code in

Microsoft environment.

Structures of peptides have been experimentally analyzed using orthogonal injection time-of-flight

mass spectrometer

2001 – 2002 Senior research scientist

Institute for Design Problems in Microelectronics of Russian Academy of Sciences, Moscow,

Zelenograd, Russia

URL: http://www.ippm.ru

Investigation of the problem of algorithmic compensation of structural defects at systolic matrixes

Numerical models of cellular automata have been developed as C code in Microsoft environment.

Numerical experiments have been performed for the investigation of models application to

numerical integration problems with algorithmic compensation of structural defects

2000 – 2002 Engineer

Research Center “MicroStyle” / Motorola Research Laboratory, Moscow, Zelenograd, Russia

Development and investigation of numerical models for fast simulation of electric circuits in

semiconductor devices (Project “Fast SIMulator of electric circuits”)

Reduction algorithm for passive RC-networks based on a projection (Krylov-subspaces) technique

has been developed and tested. Software realization of algorithm have been developed as C code in

Linux environment

Alexander Serov

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Subcircuit Transistor Model (STM) with further application of FSIM STM software for BSIM3,

BSIM4, B3SOI, SSIM, SSIMSOI technologies has been developed (participation as a team

member)

Software for investigation of new Motorola MICA/FSIM technology has been developed and

applied. Software tools are realized as C code at Solaris environment.

1995 – 2001 Engineer – researcher

Scientific Research Institute “Micropribor” / Technical Research Center “Elsov”, Moscow, Zelenograd,

Russia

URL: http://www.elsov.ru

System development and system analysis of a Communications-Satellite Network “Bankir”

Channel and network communication protocols have been developed (participation as a team

member)

Numerical method have been developed for the investigation of communication protocols. Method

was realized as Pascal-based software (Microsoft software environment) and used for the analysis

of operation of designed protocols in a group of earth-based stations

Numerical model of carrying-capacity of space network has been developed and realized as Pascalbased

software. Parameters of data transfer for various architectures of the network have been

investigated

Software for the Control Center of Space Network has been developed (participation as a team

member). Pascal-based software is developed at Microsoft environment. Designed programs are

responsible for the allocation and re-allocation of space channel resources

Software-hardware complex for the control of frequency and power resources of a satellite have

been developed (participation as a team member). Code is developed at Borland Delphi

environment. Measurement and data interpretation technique is elaborated (participation as a team

member).

Control algorithms for transmitter of earth-based power stations have been developed (participation

as a team member). Numerical model of algorithms was developed as MATLAB code and used for

the investigation of algorithms and optimization of their parameters

1990 – 1995 Physicist – researcher

Scientific Research Institute “Nauchny Center”, Department of Space Materials, Moscow, Zelenograd,

Russia

Investigation of growth process of semiconductor monocrystals

Numerical method for Stephan problem solution based on Finite Differences Analysis have been

created. Method includes the solution of the system of non-steady partial differential equations.

Navier-Stokes equations, equation of diffusion and thermal equation have been solved at the region

having time-dependent geometry. Method fulfils the set of conservation laws.

Software realizing numerical method of Stephan problem solution have been developed as Fortran

code for the calculation in MS DOS environment (later it’s adopted at MS Fortran Power Station).

Software was used for the numerical investigation of growth of semiconductor monocrystals under

normal and low gravity conditions

Software have been developed for the numerical investigation and optimization of the parameters

of technological equipment for the growth of monocrystals onboard the orbital station “Mir”.

Fortran-based software was used for the calculation of thermal insulation parameters of electric

furnace, power parameters of growth process and geometric parameters of the growing

monocrystals.

1989 – 1990 Engineer – programmer

Scientific Research Institute “Nauchny Center”, Department 52, Moscow, Zelenograd, Russia

Methods and software development for the testing of designed RISC processor

Alexander Serov

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LANGUAGES

Fluent in English, Russian native speaker

COMPUTER PROFICIENCY

Operating Systems: Microsoft Windows, UNIX / Solaris, Linux, Mac OS, MS DOS.

Programming languages: C, C++,C#, Fortran, Pascal, Delphi.

Computational tools: Matlab, Mathcad.

INTERESTS

Music. Chess. Books. Philosophy. History of religion. And a lot of another things of this wonderful world…

PUBLICATIONS:

1. Serov A.A., Dolaberidze G.V., Ivanova M.A., Sokolova A.G., Vlasishen Yu. “Software package for the

vibromonitoring of machinery equipment” // Journal “Vestnik nauchno-technicheskogo razvitija”,

3(43), 2011. URL: http://www.vntr.ru/ftpgetfile.php?id=505

2. Sokolova A.G., Balitsky F.Ja., Dolaberidze G.V., Ivanova M.A., Serov A.A. “Vibromonitoring of gasturbine

engine DG-90 based on the multidimensional discriminant analysis” // Journal “Vestnik nauchnotechnicheskogo

razvitija”, 2(42), 2011. URL: http://www.vntr.ru/ftpgetfile.php?id=497

3. Serov A. A., Izotov A.V. “Method for control the operation of data registration tract of the vibroacoustic

diagnosis system”, in press at Journal “Vestnik nauchno-technicheskogo razvitija”. URL:

http://www.vntr.ru

4. Serov A.A., Dolaberidze G.V., Ivanova M.A., Sokolova A.G., Vlasishen Yu. “Software Package for the

Vibro-monitoring and Diagnostics of Gas Turbine Engines Realizing the Method of Discriminant

Analysis” // III International Conference “Aeroengines of XXI Century ”, Moscow, CIAM, 30.11 -

03.12.2010, Pp. 1583-1585. URL: http://aeroconf.ciam.ru

5. Serov A.A. “The problems of automatic data processing at the systems of condition monitoring of

industrial equipment” // 10th European Conference on Non-Destructive Testing, Moscow, 2010, June 7-

11, Abstracts, Part 2, Pp. 237-238. URL: http://www.idspektr.ru/10_ECNDT/abstracts/4_01_12.pdf

6. Serov A.A. “The problems of automatic data processing at the systems of condition monitoring of

industrial equipment” // 10th European Conference on Non-Destructive Testing, Moscow, 2010, June 7-

11, Reports, Report 4.1.12, Pp. 1-7. URL: http://www.idspektr.ru/10_ECNDT/reports/4_01_12.pdf

7. Serov A. A. “Simulation Methodology of Micro-Electro-Mechanical Systems. Part one: Full 3D models”

// Canadian Applied Mathematics Quarterly (CAMQ), V.13, N 4, Winter 2005, 345 – 367. URL:

http://www.math.ualberta.ca/ami/CAMQ/table_of_content/vol_13/13_4d.htm

8. Serov A., Rusakov S., Egorov Yu. “Development of methodology, algorithms and software for the

behavioral simulation of dynamical systems including components of various physical nature”, Scientific

program of Russian Academy of Sciences “Fundamental basis of informational technologies and

systems” // Scientific Report, Institute of Development Problems in Microelectronics, Moscow, Russia,

2004

9. Serov A.A., Maslovsky V.M., Rusakov S.G., Kuznetsov I.A. “Influencing of oscillations of an external

thermal field on processes of CdHgTe crystallization” // Journal of Advanced Materials, 2002, 5, 31-37

10. Serov A.A. “Algorithm of passive RC - schemes reduction under the characteristics in frequency

domain” // PeaCE /OLCC Progress Report, January 2001

11. Serov A.A. “Investigation of algorithms for compensation of structural defects of systolic matrixes”,

Scientific Report, Institute of Development Problems in Microelectronics, Moscow, Russia, 2001

12. Serov A.A., Maslovsky V.M. “Influencing of oscillations of an external thermal field on process of

microsegregation at single crystals growth by a method of a directional crystallization” // Proceedings of

European Materials Research Society Spring 2001 Meeting. - Strasbourg, France, 2001 - A-II.9

Alexander Serov

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13. Serov A.A., Maslovsky V.M. “Development of a non-uniformity of a structure at single crystal’s growth

of semiconductor materials from a melt” // Proceedings of the XXX International Seminar “Noise and

degradation processes in semiconductor devices”, Moscow, Russia, 2000, 235-240

14. Maslovsky V. M., Serov A. A. “Numerical simulation of single crystals growth from a melt by a method

of a vertical directional crystallization” // Fundamental Problems of Developing Advanced Materials and

Processes of the XXI Century, V Russian–Chinese International Symposium. Tomsk, Russia, 1999, pp.

86 - 93

15. Serov A.A., Maslovsky V.M. “Numerical simulation of axial and radial impurity distribution under GaAs

monocrystals growth by vertical directional crystallization method” // Proceedings of European Materials

Research Society Spring 1999 Meeting. Strasbourg, France. Thesis C-I/P28

16. Serov A.A., Maslovsky V.M. “Inhomogeneities in axial and radial impurity distribution under Si

monocrystals growth by vertical directional crystallization method” //Proceedings of European Materials

Research Society Spring 1999 Meeting. Strasbourg, France, 1999. Thesis E/P18

17. Voronov V.V., Malovichko M.M., Serov A.A. “The algorithms for the control of transmitters’ power of

earth-based stations”, Scientific-Technical Report, Research Center “Elsov”, Moscow, Russia,1997

18. Serov A.A. “Algebraic method of a computational grid generation at the Stefan Problem Solution “ //

Journal “Informatsionnie technologii”(Russian), 1997, 9, 7-11

19. Serov A.A., Malovichko M.M. “Determination methodology and numerical simulation of throughput

capacity of space network “Bankir”, Scientific Report, Research Center “Elsov” , Moscow, Russia, 1995

20. Malovichko M.M., Kozlov V.A., Serov A.A. “The channel protocol of space network “Bankir”,

Scientific Report, Research Center “Elsov” , Moscow, Russia, 1994

21. Goncharov V.A., Markov E.V., Serov A.A. “On the Effect of Residual Microaccelerations on

Semiconductor Crystal Growth under Microgravity” // International Aerospace Congress: Theory,

Applications, Technologies, August 15-19, 1994, Moscow, Russia; Abstracts, 253

22. Goncharov V.A., Markov E.V., Serov A.A. “Control of GaAs Single Crystal Growth by Direction

Crystallization under Microgravity” // International Aerospace Congress: Theory, Applications,

Technologies, August 15-19, 1994, Moscow, Russia; Abstracts, 254

23. Goncharov V.A., Markov E.V., Serov A.A. “Numerical Simulation of Growth Process of GaAs Single

Crystals by a Directional Crystallization Method in Conditions of a Microgravitation“ // Transactions of

the First International Aerospace Conference “Perspectives Of Mastering Outer Space”, 28.09-02.10

1992, Moscow, 1995, 57-69

24. Serov A.A. “Numerical Simulation of Thermal Conditions of GaAs Single Crystals Growth from a Melt”

// Journal “Elektronnaia Technika”, series “Microelectronics” (Russian), 1992, 1, issue 1 (146), 33-38

25. Goncharov V.A., Markov E.V., Serov A.A. The theses of the report “Numerical Simulation of Growth

Process of GaAs Single Crystals by a Directional Crystallization Method in Conditions of a

Microgravitation” // First International Aerospace Conference “Perspectives of Mastering Outer Space”,

28.09-02.10 1992, Moscow, Russia, 135

REFERENCES

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