XR FPV Simulator
Training in drone assembly and operation is a complex and time-consuming process that requires the use of real components and equipment. Beginners often struggle to master all the stages of assembly and configuration, and mistakes during the process can lead to damage to expensive parts. Additionally, drone pilots often face challenges when training in real conditions due to weather constraints or limited access to training areas. The XR FPV Simulator addresses this problem by integrating real drone components with a virtual assistant (AI assistant) that guides users step-by-step through the assembly and configuration process. Afterward, users can practice flying drones in a virtual (VR) environment, allowing them to develop piloting skills in a safe and controlled setting. This solution minimizes the risk of equipment damage and provides training opportunities regardless of external conditions.
Competencies And Staff Development
National projects for training in the fields of artificial intelligence, critical technologies or unmanned aircraft systems
The implementation time for the simulator ranges from 2 weeks to 2 months, depending on the specifics and complexity of the task. The stages include design, development, testing, and staff training.
The XR FPV Simulator is successfully used in training centers and companies involved in drone manufacturing in Russia. However, the platform is flexible and adaptable to different regions and objectives, and it does not require significant changes to infrastructure for implementation. This allows companies and educational institutions to adopt innovative training technologies without substantial costs.
XR FPV Simulator offers the following key advantages compared to traditional training methods: Interactive learning: Users can interact with real drone components and use an AI assistant that provides step-by-step guidance throughout the assembly and configuration process. Safety: Since training and flight simulations take place in a virtual environment, users can practice without the risk of damaging expensive equipment. Flexibility: The simulator can be adapted for different drone models and purposes, catering to both hobbyists and professionals. Time and resource efficiency: With the virtual environment, users can train in any conditions, regardless of weather or the need for physical infrastructure. Economic benefit: The simulator helps reduce training costs, minimizes equipment losses, and increases the overall efficiency of the training process.
The practice has been featured in several specialized publications, including "Science and Technology," "Holography — AR | VR | Metaverse," and "Future Sailors — VR, AR, and Stuff." Additionally, we have received numerous letters of appreciation from companies that have successfully implemented our solution. Some of these letters are included in the attached materials.
We have developed several localized approaches that accelerate the development and modeling process.
