1. Electrical and Computer Engineering Personal Head-Up Display Ivan Bercovich Radu-Andrei Ivan Jeff Little Felipe Vilas-Boas Faculty: Dr. Tilman Wolf Comprehensive Design Review

2. 2 Electrical and Computer Engineering Concept

3. 3 Electrical and Computer Engineering Concept

4. 4 Electrical and Computer Engineering Concept

5. 5 Electrical and Computer Engineering Concept

6. 6 Electrical and Computer Engineering Project Outline  Orientation Sensing Unit Gather information from orientation sensors  Data Processing Unit Process data from the sensors, compute relative location of POIs, render perspective, send video feed to HUD  Head-Up Display Label surrounding area

7. 7 Electrical and Computer Engineering Specifications  Able to label building +/- 3º off center from a min distance of 150m  Be able to measure pitch and roll accurately within +/-2º.  OSU must be head mountable.  Batteries must be able to power OSU for 4 hours continuous use.  System must have means of calibration/reset.

8. 8 Electrical and Computer Engineering Data Flow Diagram

9. 9 Electrical and Computer Engineering System Block Diagram

10. 10 Electrical and Computer Engineering  ATMega644P polls sensors  Data packetized  Packets sent to data processing unit via RS-232. OSU Design 5.25 in 2.125 in

11. 11 Electrical and Computer Engineering Power  Q-Sight is tether powered  Beagle-board : 2.5 W powered by lithium ion battery  Pico-projector: 3.2W is tether power  OSU: battery pack

12. 12 Electrical and Computer Engineering  Angstrom OS installed on Beagle Board (DPU)  C++ compiler installed  Interfaces with Texas Instruments DLP Pico Projector  Capable of running OpenGL ES (embedded systems) DPU Design

13. 13 Electrical and Computer Engineering  OpenGL virtual world Buildings labeled with appropriate names  Movements in real world paralleled in virtual world Virtual World Design

14. 14 Electrical and Computer Engineering BAE System HUD  Display FOV:20ºx20º  Resolution:800x600 pixels  Input:DVI-D

15. 15 Electrical and Computer Engineering Team Wolf 2009 HUD Design

16. 16 Electrical and Computer Engineering Calibration Feature  Each user has unique facial configuration and unique viewing mode through glasses  Gyroscope does not provide absolute data and might need to be recalibrated  Future data will be displayed relative to calibration data, increasing accuracy for various user types  Two push-buttons connected to DPU that will increment or decrement pitch/yaw/roll offsets

17. 17 Electrical and Computer Engineering Calibration Implementation

18. 18 Electrical and Computer Engineering Work in Progress  Improving positioning and field of view accuracy in virtual world to better represent real world situation  Combining compass and gyroscope data to improve directional accuracy of system  BAE agreed to lend military grade HUD  Building alternative display using Texas Instruments DLP Pico Projector

19. 19 Electrical and Computer Engineering Budget Major ComponentsCost 3 Axis Accelerometer$15.00 Digital Compass$50.00 Gyroscope$70.00 GPS$75.00 PCB Ver 1.0$50.00 PCB Ver 2.0$50.00 Beagleboard$150.00 Teleprompter glass$12.00 Pico-Projector (M5)($350.00) Total$472.00

20. 20 Electrical and Computer Engineering CDR Demo (Video 1)

21. 21 Electrical and Computer Engineering CDR Demo (Vide0 2)

22. 22 Electrical and Computer Engineering CDR Demo (Video 3)