Greater Palm Bay-Melbourne-Titusville Area
Embedded Systems Engineer with years of experience developing mission-critical software for aerospace and defense platforms. I specialize in real-time embedded systems, avionics software, and low-level firmware operating in safety-critical environments. My work focuses on building reliable software powering aircraft systems, radar platforms, and advanced defense technologies. Currently I develop embedded avionics software using Ada and VxWorks RTOS for mission and communication systems, including Tactical Data Links and NATO interoperability standards. My work involves deep system debugging, integration testing, and ensuring compliance with aerospace regulations such as DO-178C. Previously I worked on electronic warfare and radar defense systems where I contributed to anti-drone platforms, radar software, and aircraft defense suites. These projects strengthened my experience in signal processing, communication protocols, and embedded Linux systems. Core technologies: • Ada, C, C++, Python • RTOS (VxWorks), Embedded Linux • Tactical Data Links • MIL-STD-1553 • ASTERIX, UDP protocols • Electronic Warfare systems • Radar software platforms • DO-178C aerospace standards I enjoy solving complex engineering problems and building reliable embedded systems that operate in demanding aerospace environments.
Contributed to the development of embedded software in Ada for mission and communication systems on C295 and Eurodrone platforms, targeting PowerPC-based boards in a real-time environment using Wind River VxWorks. Responsibilities included the implementation, integration, and testing of Tactical Data Links, including Link 16, ensuring interoperability with NATO systems and compliance with aerospace software standards such as DO-178C and STANAG 4586. Worked closely with systems, integration, and test teams to diagnose and resolve software issues across multiple subsystems, using network protocol analyzers and low-level debugging tools to support system integration, validation, and regression testing in safety-critical avionics environments.
Contributed to embedded software development for defense and aerospace systems across electronic warfare, anti-drone, and radar platforms. Designed and implemented threat warning subsystem interfaces for the CH-47 Electronic Warfare Suite using Ada, UML, and MIL-STD-1553 communications. Developed signal processing and communication modules for an anti-drone SDR system on Zynq-7020 using C and Python. Also supported radar software development (PSR3D, LRR, LTR20) in C++ on Linux, implementing ASTERIX-based communications and debugging UDP network protocols.
Worked in the Electronics Laboratory Department, contributing to both validation activities and prototype development of electronic door handle systems for the automotive sector. Responsibilities included the design of validation plans for Flush electronic handles, execution of electronic, climatic, and electromagnetic tests, and the analysis of results with detailed reporting. The role also involved defining firmware parameter values during testing and providing technical support for product anomalies detected in France. In parallel, participated in electronic handle prototyping based on capacitive technology, coordinating with mechanical engineering teams, and performing electronic schematic design, component selection, and PCB design using EasyEDA. Additional tasks included embedded software development in C++ for microcontrollers, electronic testing using laboratory instrumentation, and PCB assembly and soldering for prototype validation.
Designed and implemented a temperature control system for automated parking equipment using an STM8 microcontroller, integrating sensor data with custom control logic. Configured and deployed Wi‑Fi cameras for parking and access control installations to enable reliable remote monitoring and supervision.