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Autonomous Helicopter

This project aims to design an autonomous helicopter capable of seamless lift-off, navigation from point A to B, obstacle avoidance, and precise landing without human intervention. Through effective management communication, motivation, scheduling, and feedback, we will employ advanced flight control systems, sensor feedback, and reverse engineering techniques. Our work will occur in Broun Hall facilities, adhering to realistic constraints like time, budget, and expertise, while ensuring compliance with standards for sustainability, safety, and social impact. Applications include scouting, supply delivery, aerial surveillance, and remote exploration.

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Autonomous Helicopter

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  1. Autonomous Helicopter By David Mason Adam Gould Shaquana Peterson Edward Budimier Jens Johnson

  2. Project Description • To create a helicopter which is capable of autonomous: lift-off, point A to B navigation, obstacle avoidance and landing. All within a given environment without crashing.

  3. Management Approach • Communication • Motivation • Scheduling • Feedback

  4. Technical Approach • Flight Control Management • Control System • Sensor Feedback System • Reverse Engineering

  5. Budget

  6. Facilities • The facilities that will be used for the design will be Broun Hall 307 and 238.

  7. Realistic Constraints • Time • Money • Expertise • Payload • Environment

  8. Application of Standards • Sustainability • Manufacturability • Health and Safety • Social Impact • Political Impact

  9. Applications • Scouting • Personal Parcel Delivery • Aerial Surveillance • Delivery of Supplies to Troops • Aerial Combat • Remote exploration of all manner of environments previously unreachable.

  10. Disposition • Any group member wishing to obtain sole ownership of any items previously co-held by the group will provide adequate compensation for such items. • Any remaining unwanted property will be donated to an establishment of our choice.

  11. Thank You!

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