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2. COMMUNICATION Liam O’Sullivan - 06308627

3. 3  Control was off board (on the GCS)  Used XBee ZigBee RF modules for telemetry  Point to point communication  Successful communication link  Disadvantages  Serial interface  Closed architecture  User implemented synchronisation  No interface standard

4. 4 HLO-5 Communications SR-B-08 and 09 Transmit and Receive Telemetry via WLAN WiFi Communication and Architecture

5. 5  Server to client architecture  Main server onboard (devices connect to it)  Multiple device/client connections  Standard networking protocol (UDP and TCP)  Utilises ‘Heliconnect’  Common network interface  Ability to communicate with other projects

6. 6  Wireless adhoc network (point to point)  Unstable (particularly for non-Apple products)  Incompatible  Wireless router network  Centralised router  Uses Linksys WRT45GL  Devices communicate through the router  Internet gateway

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8. 8  WiFi architecture implemented  Stable and reliable connection between platform server and clients

9. STATE ESTIMATION Liam O’Sullivan - 06308627

10. 10 HLO-3 State Estimation SR-B-04, 05 and 06 50Hz State update States and Sensors SR-D-05 Process Measurement Data Attitude Estimator and Kalman Filtering

11. 11  17 States to be measured StateSensorStateSensor Roll rateIMU and ViconX velocityIMU* and Vicon Pitch rateIMU and ViconY velocityIMU* and Vicon Yaw rateIMU and ViconZ velocityIMU* and Vicon RollIMU* and ViconX displacementIMU* and Vicon PitchIMU* and ViconY displacementIMU* and Vicon YawIMU* and ViconZ displacement IMU*, Altitude Sensor and Vicon X accelerationIMU and ViconX targetBlackfin Camera Y accelerationIMU and ViconY targetBlackfin Camera Z accelerationIMU and Vicon

12. 12  Sensor Dynamics 6 DOF IMU  3 gyroscopes and 3 accelerometers  Measures  Angular rates  Accelerations  Indirectly measures  Angles  Velocities  Displacement  75Hz update rate  SPI connection (with Overo Fire)  Inherited from AHNS09

13. 13  External motion capture system  Tracks reflective spheres with 5 IR cameras  Can measure all required states (except the camera tracking states) with sub mm accuracy  200Hz update rate  Not used for low level control (latency)  Verification and Validation tool  Ethernet connection (via GCS)  Located at the ARCAA building

14. 14  Maxbotix ultrasonic sensor  Measures vertical displacement  Sonar range finder (not IR based)  Replaced by Vicon System  Still incorporated for redundancy  UART connection (with Overo Fire)  Inherited from 3 rd year project

15. 15  Blackfin camera with Analog Devices processor  Embedded image processing (IP)  Interface and IP library  Get camera frame  Edge detection  Colour segmentation  Blob detection and others  WiFi connection (camera feed)  SPI connection (IP tracking states)  Recommended by Supervisor

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17. 17  IMU measurements are noisy and will drift  Require attitude estimator to correct for this  Will be based on the attitude estimator from AHNS2009  Basic Kalman filter

18. 18  All sensors are operational  Software interface libraries completed for  IMU  Blackfin Camera  Future work  Altitude sensor software interface  Vicon system client  Attitude estimator implementation

19. LOCALISATION Liam O’Sullivan - 06308627

20. Localisation 20 HLO-2 Localisation SR-B-07 Estimation of X and Y displacement Image Processing

21. 21  Blackfin Camera mounted underneath platform  Search for cross “blob” to localise itself (via IP)  Dead reckoning navigation from blob centroid (x and y displacement)

22. 22  Newly integrated Vicon system eliminates need for dead reckoning  Will now perform a path tracking function for autonomous navigation (xt and yt displacement)

23. Localisation Summary 23  Success of this subsystem is dependent on all other subsystems  Re-evaluation of subsystem may need to occur if project progress stalls

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