Virtual Pilot Model Aims to Transform Aircraft and Spacecraft Design in Russia
Engineers have developed a mathematical model that simulates how a human pilot behaves at the controls during the digital design phase.
Engineers at the Moscow Aviation Institute have created a system that replicates a pilot’s actions when flying airplanes, helicopters, and spacecraft. The model analyzes visual inputs, vestibular signals, and neuromuscular responses, allowing designers to predict how comfortable and safe a new vehicle will be for a human operator.
Built to Mirror Human Perception
The model consists of three core modules. The first handles perception, accounting for visual delays, interference, and inner-ear signals associated with acceleration and roll.
The second module reproduces the functioning of the central nervous system and generates decision-making algorithms. The third simulates hand movements and interaction with flight controls.
Virtual Testing Before the First Flight
The development enables engineers to identify weaknesses in control systems before a physical prototype is built.
The model can calculate pilot responses under various loads and flight modes, significantly reducing testing costs.
The system is already being used in the development of new aircraft and helicopters, as well as a next-generation supersonic passenger jet. Developers also plan to apply it to assess spacecraft docking procedures and the feasibility of soft landings on the Moon.
In the future, the model is expected to evolve into a universal platform for testing, training, and automation. Final decisions, however, will continue to rest with human pilots, particularly in нестандартных and high-stress situations.
