3. Educational Background 5.0 GPA: 2001-2002 Period: “ Numerical Method of Non-Steady Stephan Problem Solution at Simulation of Semiconductor Monocrystals Growth from the Melt” Diploma: Philosophy Doctor Degree: Philosophy Doctor Degree Numerical Simulation / Computer-Aided Design Major: Methods of Numerical Simulation Department: Post-Graduate Courses of the Institute of Design Problems in Microelectronics, Russian Academy of Sciences Institution:
4. Educational Background Space Materials Department: 1990-1995 Period: “ Calculation, Investigation and Optimization of Crystallization Front Shape and of Crystal Characteristics on the Basis of the United Numerical Model of Crystal Growth from the Melt” Diploma: 4.86 GPA: Engineer – Researcher Degree: Physicist Researcher Physics of Semiconductors and Dielectrics Major: Post-graduate Courses of Research Institute “Nauchny Center” Institution:
5. Educational Background 1982-1988 Period: “ Investigation of Quantum Size Effects in Thin Films of CdTe ” Diploma: 4.5 GPA: Master of Science Degree: Master of Science Quantum Radio-Physics Major: General and Applied Physics Department: Moscow Institute of Physics and Technology (MPTI) University:
6. Additional Educational Background 17.07 – 19.07 2006 Period: Certificate of Training at HP ITIL Diploma: Title of Background at HP ITIL Information Technology Infrastructure Library (ITIL) Foundation for IT Service Management Major: Hewlett – Packard Education Centre Institution:
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17. Systolic matrix types used at cellular automata-based investigations of algorithmic compensation of structural defects Network with 8 neighborhoods (a) and one with 4 neighborhoods (b) (a) (b)
18. Cellular automata-based investigations of algorithmic compensation of structural defects at systolic matrixes Temperature field distribution calculated with using of algorithmic compensation of one defect in systolic matrix (a) and without compensation (b) (a) (b)
27. Numeric investigation and optimization of channel level protocols developed for space network “Bankir” The dependence of average utilized portion of radio-frame’ reserved access resource (Z) from the number of earth-based stations having access to one space channel (X). Calculations were performed for the time interval 500 T rk . Average information load for one station: curve 1 - 2000 packets/hour, curve 2 – 1170 packets/hour, curve 3 – 1035 packets/hour.
28. Numeric investigation and optimization of methods used for the control of earth-based stations transmitters’ power The dependence of the average normalized informational loading sent through the single space satellite beam from the period of self-adjustment of power of earth-based stations . Calculations were made for the decentralized method of power adjustment (self-adjustment) The number of duplex space channels per one satellite beam: curve 1 – 19, curve 2 – 29, curve 3 - 37 t, s
29.
30.
31.
32.
33.
34.
35. Numerical optimization of technological process of Cd x Hg 1-x Te monocrystals growth from the melt by the vertical directional crystallization method Time dependence of the critical amplitude of oscillations of an exterior radial thermal field obtained at values of a cooling rate 5.21 10 -3 K/s (curve 1) and 1.16 10 -3 K/s (curve 2)
![Highlights ,[object Object],[object Object],[object Object],[object Object],[object Object],[object Object]](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)