Client: Qatar University
Role: Lead Software Engineer & Project Manager
Technology: SCANeR Simulation Engine, C++, VR Integration, Hardware-Software Integration
Keywords: E-Scooter, VR, Simulation, Training, Driving Research, C++, SCANeR
A professional-grade immersive simulator designed for education, research, and driver behavior studies, supporting both Virtual Reality (VR) and 3-screen display setups. The simulator enables rich interaction with a virtual e-scooter and offers real-time metrics for performance analysis in a fully controlled environment.
🚀 Key Contributions:
Project Management
Shared responsibility for planning, coordination, and execution across technical and stakeholder-facing aspects of the project.
Immersive Output Modes
Helped implement support for both VR and 3-screen panoramic displays, ensuring accessibility for diverse training scenarios.
3D Model & Environment Integration
Integrated and optimized high-fidelity scooter models and Qatari road environments into SCANeR for a realistic simulation experience.
Hardware–Software Integration
Worked closely with the hardware team to connect real e-scooter components with the simulator, ensuring responsive feedback for braking, steering, and road interaction.
C++ Control Systems
Developed key C++ modules that simulate realistic steering dynamics and force feedback.
Data & Performance Logging
Contributed to the implementation of metrics and analytics for research insights and performance tracking.