федеральное государственное автономное образовательное учреждение высшего образования
«Самарский национальный исследовательский университет имени академика С.П. Королева»

Matyunin, Sergey A.

  • Department of Power Plant Automatic Systems, professor
2020
  • 1 Babaev O.G.O., Matyunin S.A., Stepanov M.V. Electronic Transceiver and Research Facility for Fiber-Optic Sensors of Anthropomorphic Robot Grippers // 2020 6th International Conference on Mechatronics and Robotics Engineering, ICMRE 2020. — 2020. — P. 68-72
  • 2 Babaev O.G.O., Matyunin S.A., Stepanov M.V. An Experimental Study of a Fiber-Optic Ring Polarizer // 2020 6th International Conference on Mechatronics and Robotics Engineering, ICMRE 2020. — 2020. — P. 140-144
  • 3 Matyunin S.A., Babaev O.G.O., Stepanov M.V. Fiber-Optic Sensors of Angular Position for Robotics // 2020 6th International Conference on Mechatronics and Robotics Engineering, ICMRE 2020. — 2020. — P. 99-103
  • 4 Matyunin S.A., Babaev O.G.O., Stepanov M.V. Fiber-Optic Sensors of Tactile Force for Anthropomorphic Robot Grippers // 2020 6th International Conference on Mechatronics and Robotics Engineering, ICMRE 2020. — 2020. — P. 48-52
2019
  • 1 Babaev Ogli O.G., Matyunin S.A. Experimental Study of the Characteristics of Macro-Bending Fiber-Optic Sensors of Angular Displacement for Anthropomorphic Robot Grippers // 2019 International Multi-Conference on Industrial Engineering and Modern Technologies, FarEastCon 2019. — 2019. —
  • 2 Babaev Ogli O.G., Matyunin S.A. Experimental Study of the Characteristics of Macro-Bending Fiber-Optic Sensors of Tactile Force for Anthropomorphic Robot Grippers // 2019 International Multi-Conference on Industrial Engineering and Modern Technologies, FarEastCon 2019. — 2019. —
2018
  • 1 Babaev O.G., Matyunin S.A., Paranin V. D. Linearization of Positional Response Curve of a Fiber-optic Displacement Sensor // IOP Conference Series: Materials Science and Engineering. — 2018. — Vol. 302. Issue 1.
  • 2 Ogli Babaev O.G., Matyunin S.A., Virchenko M.K. Modeling of the Magneto-Optical Channel of a Fiber-Optic Displacement Sensor // 2018 International Multi-Conference on Industrial Engineering and Modern Technologies, FarEastCon 2018. — 2018. —
  • 3 Matyunin S.A., Babaev O.G. Fiber-optic Sensor of Tactile Force for Anthropomorphic Robot Grips // IOP Conference Series: Materials Science and Engineering. — 2018. — Vol. 302. Issue 1.
  • 4 Babaev O.G.O., Matyunin S.A. Modeling and Optimization of Magnetic Circuits of a Fiber-Optic Displacement Sensor // 2018 International Multi-Conference on Industrial Engineering and Modern Technologies, FarEastCon 2018. — 2018. —
2017
  • 1 Matyunin S.A., Babaev O.G.O. Experimental study of depolarization of laser radiation by fiber optic elements // Computer Optics 2017. — Vol. 41. Issue 3. — P. 385-390
  • 2 Babaev O.G., Matyunin S.A., Stepanov M.V. Simulation of Contactless Fiber-optic System for Valve Status Monitoring // Procedia Engineering. — 2017. — Vol. 176. — P. 2-11
  • 3 Matyunin S.A., Stepanov M.V., Babaev O.G. Linearization of the Positional Characteristics of a Fiber-Optic Transducer Based on the Magneto-Optical Effect // Measurement Techniques 2017. — Vol. 60. Issue 5. — P. 468-472
  • 4 Matyunin S.A. Research on Characteristics of Fiber Optic Sensors for Anthropomorphous Robots // Procedia Engineering. — 2017. — Vol. 176. — P. 128-136
2016
  • 1 Matyunin S. A., Babaev O.G., Stepanov M. V. Simulation of Contactless Fiber-Optic System for Valve Status Monitoring // Динамика и виброакустика машин. — 2016. — Issue 1. — P. 240-242
  • 2 Matyunin S. A. Resear ch of Characteristics of Fiber Optic Sensor of antropomorphous Robots // Динамика и виброакустика машин. — 2016. — P. 248-250
  • 3 Matyunin S. A., Babaev O. G. Experimental study of the polarization transformation of semiconductor lasers in fiber-optic elements of the optical polarization sensors // 11th. International Congress on Engineering, Design and Manufacturing. Sustainability and Resilience Approach (ICEDM2016). — 2016. — P. 51-55
  • 4 Matyunin S. A., Babaev O. G. The linearization method of positional response curve of the fiber-optic displacement sensor // 11th. International Congress on Engineering, Design and Manufacturing. Sustainability and Resilience Approach (ICEDM2016). — 2016. — P. 44-50
  • 5 Matyunin S.A., Stepanov M.V., Babaev O.G. Simulation of the Characteristics of a Magneto-Optical Displacement Transducer // Measurement Techniques 2016. — Vol. 59. Issue 8. — P. 832-837
2015
  • 1 Matyunin Sergey Alexandrovich Бесконтактные волоконно-оптические датчики физических величин для высокоточных систем управления антропоморфными роботами и роботизированными платформами // Десятая Всероссийская научно-практическая конференция \"Перспективные системы и задачи управления\". — 2015. — P. 21-32
  • 2 Matyunin S.A., Fedotov Y.A., Babaev O.G. etc. Fiber-optical Sensors Based on Mono-crystal Films of Garnet Ferrites for Mechatronic Systems // Procedia Engineering. — 2015. — Vol. 106. — P. 202-209
  • 3 Matyunin S.A., Babaev O.G. Contactless fiber-optic vibration sensors for explosive manufacturings // 22nd International Congress on Sound and Vibration, ICSV 2015. — 2015. — Vol. 2015-January.
2013
  • 1 Paranin V. D. , Matyunin S.A., Tukmakov K.N. Semiconductor laser with a birefringent external cavity for information systems with wavelength division multiplexing // Quantum Electronics 2013. — Vol. 43. Issue 10. — P. 920-922
2010
  • 1 Matyunin S.A., Paranin V. D. Modeling controlled diffractive elements based on the linear electro-optic effect // Proceedings of SPIE - The International Society for Optical Engineering. — 2010. — Vol. 7523.
1982
  • 1 Plyut A.A., Matyunin S.A. STABILIZATION OF THE CHARACTERISTICS OF OPTOELECTRONIC DEVICES OVER A WIDE TEMPERATURE RANGE. // Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) 1982. — Vol. 36-37. Issue 5. — P. 109-112
1981
  • 1 Plyut A.A., Matyunin S.A. TEMPERATURE STABILIZATION OF THE LIGHT CHARACTEIRSTICS OF OPTOELECTRONIC SYSTEMS. // Telecommunications and Radio Engineering (English translation of Elektrosvyaz and Radiotekhnika) 1981. — Vol. 35-36. Issue 2. — P. 113-116