We developed a demonstrator for an eVTOL vehicle using the phenomenon called aerodynamic interaction, and developed control logic for an aircraft named multi-cruiser with unique aerodynamic characteristics.
We have performed performance verification through flight experiments of the developed demonstrator model, and are developing 3D printing manufacturing technology to commercialize this demonstrator model in the form of a BTB as a drone for various purposes.
■ Item / Brand introduction
Multi-Cruiser Demonstrator
This vehicle is the fifth version built using aerodynamic interaction effects (AIE) and was created to develop unique aerodynamic characteristics and corresponding control logic. The maximum take-off weight is 8.5 kg and it can fly a distance of 20 km with a payload of 2.5 to 3 kg
We developed a demonstrator for an eVTOL vehicle using the phenomenon called aerodynamic interaction, and developed control logic for an aircraft named multi-cruiser with unique aerodynamic characteristics.
We have performed performance verification through flight experiments of the developed demonstrator model, and are developing 3D printing manufacturing technology to commercialize this demonstrator model in the form of a BTB as a drone for various purposes.
This vehicle is the fifth version built using aerodynamic interaction effects (AIE) and was created to develop unique aerodynamic characteristics and corresponding control logic. The maximum take-off weight is 8.5 kg and it can fly a distance of 20 km with a payload of 2.5 to 3 kg