PDR presentation

1. PDR presentation

2. Team Members • Paul Gaska - Team Leader - (EE) • Yaser Ghanmi - (EE) • Wafa Bader -  (CE) • Saad Altamimi (CE) • Aziz Al Meer (CE) • Nikos Peppas (CE) • Huseyin Esenboga (EE) • Sunahara Katsuyuki (CE) • Waleed Alshareif (CE) • Rashed Abdulla (EE) • Naser AlSubaie (CE)

3. The Product • Ultrasonic Telemetry Device with depth data • Emits acoustics waves under water • Tracks animals like Crabs under water

4. Product Description • Low cost • Small Ultrasonic Telemetry Device • Simple pinger • Emits a series of tones at preset frequency • Frequency emitted by transmitter through antenna • Frequency ranges from 51kHz – 81kHz

5. Product Description – cont. • Allow researchers to locate and monitor movements of organism • Provide position information • Provide Depth information • Combination of a pressure sensor and a couple of signal modulation • Resolution of pressure sensor is 50 PSI • Expected depth of organism • Experimental depth info. Is tabulated

6. Product Description – cont. • Power supply for 144 hours (more than customer require) • Rechargeable capacitors or small batteries (NYD) • Support oscillator, sensors, signal modulators and transistors • Feature ON/OFF switch (long lasting & reusability)

7. Product Description – cont. • Shape effects • Less resistance to water • Cylindrical shape • Other suggested shapes:

8. Product Description – cont. • Size effects • Size (1x6) inches – approx. vol. 30 cm3 – AAA battery • Disrupt organism living style • While swimming • While feeding

9. Product Description – cont. • Attachments to organism (on top) • Device has 2 mm holes

10. Summary of Product Spec. • Frequency Emitter (pinger) • Position information • Depth information • ON/OFF switch • Long lasting battery or Rechargeable Capacitors • Shape and size effects

11. Design Option Analysis Design #1 • Telemetry Device with Hydrophone arrays • Track organism • Frequency range from 51kHz – 81kHz • Feature depth information • Shape of TD – cylindrical (vol. 30 cm3) • Shape of HA – cylindrical base and cubical base (printer size)

12. Design Option Analysis – cont. Design #1 - Cont. • Top level block diagram • Design work structure

13. Design Option Analysis – cont. Design #1- Cont.

14. Design Option Analysis – cont. Design #1- Cont.

15. Design Option Analysis – cont. Design #2 • Telemetry Device • Track organism • Feature depth information • Feature oxygen level sensor • Frequency ranges from 51kHz – 81kHz • Shape of TD – cylindrical • Size – 1x6 cm (approx. vol. 30 cm3 – AAA battery • Battery live close to 144 hours

16. Design Option Analysis – cont. Design #2 - Cont. • Top level block diagram • Design work structure

17. Design Option Analysis – cont. Design #2 - Cont.

18. Design Option Analysis – cont. Design #3 • Telemetry Device • Track organism • Feature depth information • Frequency ranges from 51kHz – 81kHz • Shape of TD – cylindrical • Size – 1x6 cm (approx. vol. 30 cm3 – AAA battery • Battery live close to 144 hours

19. Design Option Analysis – cont. Design #3 – cont. • Top level block diagram • Design work structure

20. Design Option Analysis – cont. Design #3 – cont.

21. Team Organization

22. Risk Analysis Scheduling Risks • availability of manifacturer (mpoo) • Local and international manufacturer • Keep close contact with local manufacturer • Flaw in IC Design (mpoo) • Unpredictable. • Design IC with great precision • Provide patch during redesign

23. Risk Analysis – cont. Technical Risk • Probability to accomplish desired depth resolution (lpoo) • Can settle for lower resolution • Miniaturization of device (mpoo) • Similar devices exists

24. Risk Analysis – cont. Financial Risk • No or small funding (mpoo – hpoo) • Renegotiate project delivery to find funding • Lack of sufficient capital kill project (lpoo) • Will not allow it.

25. Financial Status • No expenses so far • Did not get in actual design yet

26. Budget Vs. Actual Hours

27. Q & A • For more information Check our website http://www.fit.edu/projects/TAG