ISSN: 2782-893X
eISSN: 2799-0664
— Virtual Reality (VR) technology offers an immersive and interactive environment, making it ideal for aviation training simulations. While VR training has its limitations due to disparities between virtual and real-world scenarios, this study aimed to enhance existing VR applications and developed a VR-based Aircraft Servicing Ground Operation Training for aircraft Marshalling, Refueling, and Servicing tasks by integrating additional Aircraft Line Maintenance tasks and to provide a safe alternative to real-world training, reducing accidents and incidents. The said VI for Ground Operation was evaluated using ISO25010 software quality standards to evaluate the application’s functional suitability, performance efficiency, compatibility, usability, reliability, security, maintainability, and portability. The results shows a positive feedback from both students and instructors, emphasizing its completeness and appropriateness in addressing functional requirements. The VR-based Aircraft Servicing Ground Operation Training demonstrated outstanding performance efficiency, excellent compatibility, high usability, and robust security. It showcased exceptional maintainability and portability, underlining its adaptability and ease of use across various platforms. Based on these positive outcomes, several recommendations were sought, that there should be a continued research to bridge the gap between virtual and real-world scenarios, ensuring optimal user performance in actual aviation maintenance contexts. Regular updates of the project is recommended to incorporate evolving technologies and industry best practices, collaboration with industry experts to enhance the program’s realism, periodic evaluations with end-users to address emerging needs and concerns, keeping the project relevant and effective. Furthermore, exploring partnerships with educational institutions and aviation industry players can foster a collaborative learning environment, promoting knowledge sharing and best practices. Keywords — Virtual Reality, aircraft servicing, training program, safety enhancement, Aviation Simulation