Edukacja:
Bauman Moscow State Technical University (BMSTU) (September 2010 - July 2016)
Master’s in Radio electronics and laser technology, radio electronic systems and complexes.
Umiejętności zawodowe i inne:
(FPGA) Altera | Xilinx | SystemVue | SolidWorks | Altium | HyperLynx | Matlab | C | Python | Verilog | Git | Linux Embedded System | Single Board computer | SER/DES | ADC/DAC | STM32 | Digital Signal Processing Systems | MIMO/OFDM | Wireless Communications Systems | Hardware design and testing | RF and High Speed Electronic PCB design | ADS
Dodatkowo:
PROJECTS
SDR platform for a satellite communication system, Senior Electronic Engineer / PCB designer (February 2020 – January 2021)
Implemented an SDR platform for a communication system, developing a PCB with RF, AD 9371 transceiver, and Zynq MPSoC UltraScale+ for efficient data transmission.
Created test software for Zynq UltraScale+ SoC board, optimizing PMIC and RF components using SI/PI analysis with HyperLynx.
Prepared assembly documentation, debugged, and ensured PCB readiness for operational use through initialization and integration.
IP PHY layer L1 for a satellite communication system, Hardware & FPGA / TechLead (November 2019 – June 2021)
Developed the IP PHY layer L1 for a satellite communication system, leading a team of 4 and overseeing comprehensive testing.
Designed a proprietary IP RTL protocol for data transmission (SER/DES > 2 Gbit/s) with real-time AES encryption, ensuring secure and reliable communication.
Engineered the modem transmitter section, integrating an LDPC encoder, scrambler, modulator, and 4-channel DAC (TI) 16-bit, 2.5 GSPS, and optimized performance through modeling and verification at clock frequencies of 200 MHz and 300 MHz.
A system with SDR for detecting and determining the location of UAV, Principal Engineer / Architect (November 2019 – May 2021)
Designed a UAV detection system (DJI Phantom 4, Mavic, Air) for security applications, incorporating coordinate determination and signal detection capabilities.
Researched PHY standards (IEEE 802.11, LTE, DJI) and developed algorithms for detecting specific wireless signals, optimizing system performance.
Created a scalable network of passive UAV detectors using SDR (LimeSDR) and optimized triangulation algorithms in Python, enhancing UAV position detection accuracy.
UAV detection and tracking system by video detecting, Robotic System Architect (October 2018 – August 2019)
Led system architecture design, integrating DSP algorithms into the PHY layer, managing API protocol specifications, and leading a team of 5 engineers.
Developed UAV flight control and object detection systems using cameras and AI for autonomous interception and precise tracking.
Designed and implemented real-time video transmission solutions with a local web server and FPGA-based object guidance using CSI cameras.
Researched and optimized tracking and object detection algorithms using OpenCV, enhancing UAV video processing and autonomous flight capabilities.
EDUCATION
Bauman Moscow State Technical University (BMSTU) (September 2010 - July 2016)
Master’s in Radio electronics and laser technology, radio electronic systems and complexes.
ADDITIONAL INFORMATION
Languages: Russian (native), English (fluent)
Pet project (SDR Dev Board): Designed a high-performance SDR platform (M.2 form factor) featuring Artix 7 FPGA and AD9361.
