π§ Electronic Systems Architect | FPGA | IoT | Embedded System | Wireless & Satellite Communications | UAV Tech
π Tbilisi, Georgia | π +995 599025179 | βοΈ [email protected] | LinkedIn
I am a Wireless Communication and Hardware Systems Architect with 10+ years of experience designing high-performance electronic systems. My expertise spans FPGA-based systems, SDR platforms, RF design, and digital signal processing for wireless communication, satellite systems, and UAV technologies.
π‘ Key Expertise:
β FPGA design (Xilinx, Altera), Verilog, high-speed SER/DES interfaces
β SDR, MIMO, OFDM, AGC, and advanced digital signal processing
β RF & mixed-signal PCB design (Altium, HyperLynx, ADS, CST)
β Embedded systems, Linux, STM32, Zynq MPSoC UltraScale+
π Recent Innovations:
β Designed a wireless VR communication system (5 GHz, 60 GHz, 70 GHz) for HTC Vive and more
β Developed a UAV detection & tracking system for security applications
β Led the FPGA & hardware design of a satellite modem PHY layer with AES encryption
β Created a custom SDR platform in M.2 format for advanced wireless applications
β Designed and debugged a PCB for a ground terminal in a satellite communication system
π What I Do:
I lead cross-functional engineering teams, define system architectures, develop cutting-edge wireless and electronic solutions, and drive hardware development from concept to production. My focus is on high-speed communication systems, signal processing optimization, and hardware acceleration for complex applications.
π Looking to Connect?
I am always open to discussing innovative projects, FPGA, SDR, and wireless tech. Iβm interested in collaborations, technical challenges, and exploring new opportunities in high-performance electronic systems. Letβs connect! π
- FPGA: π₯οΈ Altera | Xilinx
- Software & Tools: π οΈ SystemVue | SolidWorks | Altium | HyperLynx | Matlab | C | Python | Verilog | Git | Linux Embedded System | Single Board Computer
- Hardware: π‘ 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
Wireless Communication and Electronic System Architect / Product Manager / TechLead
- π₯ Managed and mentored a team of 5 engineers to design and develop wireless indoor systems (5 GHz, 60 GHz, 70 GHz) for HTC Vive VR.
- π‘ Developed architecture and requirements for baseband and RF wireless ASICs.
- π Optimized FPGA-based communication systems using OFDM and MIMO technologies, improving reliability, throughput, and latency.
- π§ Developed software and algorithms for MIMO, AGC, OFDM, and baseband signal processing, using MATLAB, Python, and NVIDIAβs Sionna.
- π¬ Designed and built high-speed 18-layer mixed-signal Electronic PCBs integrating Zynq MPSoC, RFSoC, DDR4, PCIe, Ethernet, HDMI, RF Transceiver (ADRV9009), and JESD204B.
Hardware Team Lead
- π°οΈ Led the design and development of a satellite antenna system, including phased array beam control and frequency converters (STM32).
- ποΈ Managed project planning, installation, assembly, and testing (climatic, vibration).
- π― Developed radar signal propagation algorithms and optimized antenna performance with Doppler shift and beam narrowing.
Senior Electronic Engineer / PCB Designer
- π°οΈ Implemented an SDR platform for a communication system with RF, AD9371 transceiver, and Zynq MPSoC UltraScale+.
- π§ Created test software for Zynq UltraScale+ SoC, optimizing PMIC and RF components using SI/PI analysis (HyperLynx).
- ποΈ Prepared assembly documentation and ensured PCB readiness through debugging and integration.
Hardware & FPGA / TechLead
- π Developed a proprietary IP RTL protocol for data transmission (SER/DES > 2 Gbit/s) with real-time AES encryption.
- π Engineered a modem transmitter section with LDPC encoder, scrambler, modulator, and 4-channel DAC (TI) at 2.5 GSPS.
Principal Engineer / Architect
- πΈ Designed a UAV detection system for security applications with coordinate determination and signal detection.
- π‘ Researched PHY standards (IEEE 802.11, LTE, DJI) and developed wireless signal detection algorithms.
- π― Created a scalable network of passive UAV detectors using SDR (LimeSDR) and triangulation algorithms.
Robotic System Architect
- π₯ Integrated DSP algorithms into the PHY layer and managed API protocol specifications.
- π€ Developed UAV flight control and object detection systems using cameras and AI.
- πΊ Designed and implemented real-time video transmission solutions with an FPGA-based object guidance system.
π Master's degree, Radio Electronic Systems and Complexes
π Grade: 4.8/5
- Specialized in Radiolocation systems and complexes, focusing on developing radio electronic devices from conception to implementation.
- Studied analog and digital circuits and elements, including their characteristics, working principles, and limitations.
- Learned DSP algorithms for communications, navigation, and radiolocation.
- Studied system design principles for large radio electronic complexes, such as ground-satellite, multipositional, and wireless systems.
- Researched the Doppler beam narrowing algorithm for an onboard radar system.
- Modeled and optimized the location of radiating antennas in the phased array (FEKO and MATLAB) - Ku, Ka bands.
- Conducted radar system calculations and performance optimization.
- π£οΈ Languages: Russian (native), English (Upper)
- π οΈ Pet project (SDR Dev Board): Designed a high-performance SDR platform (M.2 form factor) featuring Artix 7 FPGA and AD9361.