Sep 23, 2020 · The project aims at finding an optimum design for a fixed-wing drone keeping in mind not just the optimum performance parameters but the fabrication costs as well.

Aug 12, 2024 · Systems engineering provides an effective and logical approach to aircraft design. It allows forward thinking decision making and quick iterative engineering with quantitative trade-offs for...

drone wings. Students will first complete a wing-building activity to gain a better general understanding of wing structure. They will then be encouraged to design a new drone wing inspired by biomimicry. After reading about examples of biomimicry in the world around them, they will work in teams to research the wings and flight patterns of several

Apr 27, 2023 · Wing design affects lift, drag, and maneuverability. The size, shape, and angle of attack are all important factors that must be carefully considered when designing a UAV. Airflow patterns also play an important role in aerodynamic design. These patterns depend on the shape of the airfoil and wings, as well as the speed at which the UAV is flying.

Abstract—In this technical paper, the design and analysis methodology for a fixed/VTOL UAV is fully presented. This methodology was developed during the Airbus Drone Challenge 2017 for the presentation of the ‘Hygeia Ex Machina’ (HEM) UAV concept.

Sep 1, 2023 · The design phases include wing shape, wing mounting position, tail configuration, fuselage configuration, engine configuration, propeller configuration, landing gear configuration, and finally the overall configuration selection.

Jun 19, 2023 · According to DRO, the aircraft is designed to be able to operate at speeds of 14 m/s and an altitude of 120 m (cruise phase) above ground level. The Maximum Takeoff Weight (MTOW) of the planned is...

SIMNET is a next-generation drone (UAV) design exploration and simulation environment that runs on your web browser. Combine parametric components to create virtually any type of drone design, from multicopters, to fixed-wings and VTOLs.

This expert-level course is designed for professionals and advanced students aiming to master the cutting-edge principles of UAV (Unmanned Aerial Vehicle) design, development, and deployment.

This course introduces the initial designing and sizing process for rapidly growing fixed – wing UAV technology, integrated with its performance and stability analysis and prototype testing