Èíñòèòóò Ôèçèêè èì.Ë.Â.Êèðåíñêîãî
ßndex

www.yandex.ru
  General Information
  Office
  Directions
  Equipment basis
  Laboratories
  Workshop INTAS
  Integration
  Papers
  Preprints
  Photoreports
  Persons
  Memorial museum

Tyurnev Vladimir V.

  1. Family name: Tyurnev
  2. First name: Vladimir
  3. Patronymic name: Veniaminovich
  4. Date of birth: 11 February 1948
  5. Address: Kirensky Institute of Physics, 660036, Krasnoyarsk, Russia
  6. Phone: +7 (3912) 494591
  7. Fax: +7 (3912) 438923
  8. E-mail: tyurnev@iph.krasn.ru
  9. Education:
  • 1971 — M. Sc. at Krasnoyarsk State University, Physical faculty
  • 1980 — Ph. D. (physics and mathematics, magnetic phenomena physics). Thesis "Propagation of Acoustic and Electromagnetic Waves in Periodic Magnetic Structures".
  • 1989 — Senior research physicist (radio).
  • 1999 — D. Sc. (engineering, radio). Thesis “Bandpass Microstrip Filters and the Expert System for Their Synthesis”.
  • 2004 — Full professor (engineering).
  1. Experience:
  • 1974—1980: Theory of electromagnetic and acoustic wave propagation in periodic magnetic structures of finite thickness.
  • 1980—1985: Electrodynamic analysis of ferrite-semiconductor layered structure in transmission line at ferromagnetic resonance.
  • 1985—now: Analysis of multi-wire transmission lines.
  • 1986—now: Analysis and study of microstrip and suspended strip resonator filters.
  • 1988—now: Theory and computation of resonator coupling coefficient.
  • 1994—now: Special optimization methods and synthesis of microwave filters.
  • 1995—now: Building an expert system for CAD of microstrip and strip filters.
  1. Positions:
  • Leader research scientist in Microwave laboratory of Kirensky Institute of Physics.
  • • Professor in Institute of Engineering Physics and Radio Electronics of Siberian Federal University.
  • • Member of D. Sc. Jury on radio engineering at Siberian Federal University.
  1. Scientific interests:
  • Artificial intelligence system for CAD design of microwave filters.
  • Study of selective properties of microstrip filters versus their structure.
  • Special optimization methods for microwave filter synthesis.
  • Numerical analysis of multi-wire transmission lines.
  • Coupling coefficient of resonators.
  • Microwave filters using multi-mode resonators.
  1. Selected publications:
  1. Belyaev B. A., Titov M. M., Tyurnev V. V. Coupling Coefficient of Irregular Microstrip Resonators - Radiophysics and Quantum Electronics. 2000. 43. No 8. p. 649.
  2. Tyurnev V. V. The Coupling Coefficients of an Asymmetric Pair of Microwave Resonators - Journal of Communications Technology and Electronics. 2002. 47. No. 1. p. 1.
  3. Belyaev B. A., Leksikov A. A., Tyurnev V. V. Frequency-Selective Features of Multisection Filters Based on Regular Microstrip Resonators - Journal of Communications Technology and Electronics. 2004. 49. No. 11. p. 1228.
  4. Tyurnev V. V., Dovbysh I. A. Resonant Properties of Double-Wire Suspended Stripline Resonator - 2005 15th Int. Crimean Conference “Microwave & Telecommunication Technology” (CriMiCo’2005). 12-16 Sept., Sevastopol, Crimea, Ukraine. p. 487.
  5. Belyaev B. A., Butakov S. V., Laletin N. V., Leksikov À. À., Tyurnev V. V. Expert System Filtex32 for Computer-Aided Design of Bandpass Microstrip Filters – 2005 15th Int. Crimean Conference “Microwave & Telecommunication Technology” (CriMiCo’2005). 12-16 Sept., Sevastopol, Crimea, Ukraine. p. 504.
  6. Belyaev B. A., Butakov S. V., Laletin N. V., Leksikov A. A., Tyurnev V. V., Chesnokov O. N. Selective Properties of Microstrip Filters Designed on Quarter-Wave Codirectional Hairpin Resonators - Journal of Communications Technology and Electronics. 2006. 51. No. 1. p. 20.
  7. Tyurnev V. V. Calculation of Transverse Waves in a Shielded Transmission Line Containing Circular Cylindrical Conductors - Journal of Communications Technology and Electronics. 2006. 51. No. 7. p. 788.
  8. Tyurnev V. V. Analysis of a Shielded Transmission Line Containing Circular Cylindrical Conductors and Coplanar Lines on a Grounded Shield - Journal of Communications Technology and Electronics, 2007. 52. No. 11. p. 1252.
  9. Tyurnev V. V. Direct Derivation and Refinement of Generalized Cohn-Matthaei Formulas for Resonator Coupling Coefficients in a Microwave Filter – Journal of Communications Technology and Electronics. 2008. 53. No. 5. p 554.
  10. Tyurnev V. V. Analysis of Coupled Microstrip Lines on a Layered Substrate Containing a Metal Ferromagnetic Film. – Journal of Communications Technology and Electronics. 2008. 53. No. 7. p 814.
  11. Tyurnev V. V. Influence of the Frequency Dispersion of Resonators’ Coupling Coefficients on the Accuracy of Direct-Synthesis Formulas for Microwave Filters. – Journal of Communications Technology and Electronics. 2009. 54. No. 3. p 298.
  12. Dovbysh I. A., Tyurnev V. V. Peculiarities of Intelligence Optimization of a Microstrip Filter on Folded Dual-mode ResonatorsProgress In Electromagnetics Research Symposium Proceedings. Moscow. 2009. p. 1161.
  13. Dovbysh I. A., Tyurnev V. V. Intelligence Method for Optimizing a Microstrip Filter Based on Folded Dual-Mode Resonators – Journal of Communications Technology and Electronics. 2009. 54. No. 11. p 1269.

 


© K i r e n s k y
Institute of Physics
1998—2012     ?