1. UAV Helicopter Project 12-May-08 Presented by Mark Diel Whirled Air Incorporated Stanford University

2. The Opportunity Is… Develop, manufacture and sell the follow-on helicopter to the Yamaha RMAX using up-to-date technologies and processes, a state-of-the-art control algorithm and a newly created ground control station.

3. The Next Generation UAV Helicopter UAV Helicopter System Ground Station and Terminal Communication Flight Control Software Position Data and Sensors Payloads Data Acquisition Network Communication Mission Programming Kalman Filter

4. Competitive Advantage Harsh Environment Ruggedized Features unique to the planned system: High reliability mechanics for operation in harsh rugged environments. Advanced software flight controller for high maneuverability. Other features: Easy human-robot interface for “out of the box” operation by non-pilots.

5. Advanced SW Flight Controller Competitive Advantage Field Practical Interface ”Redefine the human-robot-interaction interface” Harsh Environment Ruggedized High Reliability Mechanics

6. Today’s “hobby” class helicopters cannot survive a war theatre environment such as Iraq or Afghanistan. [Mark: Can you add some text with semi-technical details on this? I.e., sealed bearings, etc.?] Rugged mechanical design

7. Most current autonomous helicopters are not very agile. Vulnerable even to small arms fire. Need excessive amounts of time, fuel to carry out missions. Rugged mechanical design Unique competitive advantage: We have by far the most capable autonomous helicopter controller in the world. Control technology will enable unskilled operator to fly the helicopter through rapid, aggressive maneuvers—at a skill level comparable to the very best, expert, human pilots.

8. Easy waypoint user-interface Takeoff Fly To Loiter 30min, 100 feet Fly To (Evasive maneuvers) Loiter 200min, Fly To (Slow surveillance flight) Land

9. Revenue Model Cost of Goods Sold (COTS) … Mechanical – 120 parts plus engine$30K Avionics – IMU, GPS, magnetometer$15K Flight Computer – PC based, custom circuitry$7K Ground Station – PC based, enclosure$8K Labor$15K Total$75K Unit Selling Price$195K *Based on the sale of 100 units per year

10. Phase One Investigation and Feasibility Deliver a Feasibility Demonstration Helicopter Capable of fast aggressive flight GPS navigation, no vision Convenient user interface Generate the Customer Requirements Document and Product Specification Formalize the Business Plan

11. Phase Two Design and Prototype Design the Helicopter Airframe Build in Autonomous Takeoff and Landing into Flight Control Software and Avionics Complete Ground Terminal Development Build Two Prototype Systems Demonstrate 100 hours of Flight Testing

12. Phase Three Preproduction Prototypes Built Six Preproduction Prototypes Verification Testing including Environmental 1000 Hours System Life Testing Vendor Approval and Tooling Qualification Process Development Customer Early Delivery and Support

13. Development Schedule 1 Jun 2 Jul 3 Aug 4 Sep 5 Oct 6 Nov 7 Dec 8 Jan 9 Feb 10 Mar 11 Apr 12 Mar 13 Jun 14 Jul 15 Aug 16 Sep Phase One Phase Two Phase Three

14. Budget Phase One $125K plus Stanford? Phase Two $1.2M Phase Three $850K

15. UAV Helicopters

16. Lightweight Laser Scanner

17. 3D Laser Scanner

18. Significant helicopter expertise: Developed controllers for a large fleet of autonomous helicopters. Widely acknowledged to be the leading helicopter control group in the world. Significant robotics expertise: Including control, sensing, perception. Technology transfer to Teletronics. Autonomous helicopter and robotics expertise …