Autonomy & Decision Systems Engineer
About Me
I am an autonomy and simulation engineer with over 3 years of experience designing physics-based simulation frameworks, motion planning algorithms, and decision-support systems tailored for dynamic flight environments. My expertise lies in multi-agent coordination, reinforcement learning, and constrained planning under real-world limitations. I have a strong background in control systems, optimization, and scalable software architecture.
Currently, I work as a Software Engineer specializing in Autonomy & Simulation Systems at Turkish Aerospace Industries (TUSAS), where I design modular physics-based simulation frameworks for trajectory planning and control validation. I develop optimization-based motion planning tools for constrained flight environments and build automated data pipelines to improve reproducibility and reduce manual analysis effort. Additionally, I contribute to system-level integration between simulation models and avionics software.
Previously, I served as a Flight Mechanics & Control Engineer at the same company, implementing aircraft dynamic models for simulation and control validation, supporting control law evaluation, and performing performance envelope analysis.
I have led and contributed to several advanced projects, including a Multi-Agent Autonomous Air Combat system using multi-agent reinforcement learning with recurrent policies, achieving stable coordination without inter-agent communication. Another key project involved multi-drone forest fire coordination, where I built a grid-based simulation for battery-constrained drone coordination and implemented resource-aware task allocation strategies extendable to ROS2-based distributed systems.
My technical skills include programming languages such as Python, MATLAB, C#, and basic C++, and I am proficient with frameworks like PyTorch and Unity, with familiarity in ROS2 and Gazebo. I am experienced in multi-agent systems, reinforcement learning, motion planning, simulation architecture, optimization, and control systems. I also use tools like Git and Linux in my development workflow.
I am currently pursuing a Master of Science in Information Technologies at Istanbul Technical University and hold a Bachelor of Science in Aerospace Engineering from the same institution. I am fluent in Turkish (native), have professional working proficiency in English, and intermediate skills in French. I am open to relocation and remote work opportunities.
Skills
PythonLinuxGitUnityMatlabC#
Education
Master of Science in Information Technologies
Bachelor of Science in Aerospace Engineering
Experience
Designed modular physics-based simulation frameworks for trajectory planning and control validation. Developed optimization-based motion planning tools for constrained flight environments. Built automated data pipelines to improve reproducibility and reduce manual analysis effort. Contributed to system-level integration between simulation models and avionics software.
Implemented aircraft dynamic models for simulation and control validation. Supported control law evaluation and performance envelope analysis.
