Skyhawk Deltawing VTOL(Vertical Takeoff & Landing Drone)

Abstract

Present day drones accessible in the market are all around created and they are utilized in innumerable applications. Drones are having constraints in flight, time and range. Fixed-wing air vehicles can fly for significant distance however, they large area is required for their flight or the runways for their vertical takeoff and landing. Then multirotor drones have progressively flexibility, yet they devour more vitality. Drones have very less flight time averagely of 15 mins and their weight is approximately 1280 grams. To avoid this, we have designed a VTOL that has the flight time of 1 hour as a minimum with a median pace of 30 kilometer per hour that's two times as a Quadcopter. The report is a detailed description of the work and procedures carried out for various tasks related to design, analysis & flying of Vertical Takeoff and Landing Unmanned Aerial Vehicle. This includes project plan and methodologies followed, timeline, literature review, results and calculations required and future work. For design and analysis different software such as ANSYS Fluent for CFD Analysis, MAT Lab for optimization and plotting different graphs, RDS for initial weight estimation and aerodynamic analysis, AAA for stability analysis and Ecalc for component matching. Also, study of control board PIXHAWK 2.4.8 and ground station software Mission Planner is undertaken. The structure of the wing is also analyzed for carrying designed loads through FSI and images obtained through telemetric link can also be classified on workstations.