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Sandia National Laboratories Clinic Project: CASC Security System

Student Group Members: Arslan Majid, Chris Miller, David Brown, and Joshua Hamilton. Sandia Advisors: Steven Paradise, Patrick Schindler Academic Advisor: Dr. Behrouz Farhang. Sandia National Laboratories Clinic Project: CASC Security System. Explanation of Project Background

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Sandia National Laboratories Clinic Project: CASC Security System

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  1. Student Group Members: Arslan Majid, Chris Miller, David Brown, and Joshua Hamilton Sandia Advisors: Steven Paradise, Patrick Schindler Academic Advisor: Dr. BehrouzFarhang Sandia National Laboratories Clinic Project: CASC Security System

  2. Explanation of Project • Background • Project sections: • Programming • Sensors • Power • Interface • Time Line and project goals Overview

  3. Current safes offer no electrical security*. No alarm when broken into. Bulky. Background [1] * = Other than electrical password entry

  4. Utilize an array of sensors Low power / Sleep mode Optimize for small size Accept wireless input Provide alarm signal Purpose / goal

  5. By: Chris Miller [2] Programming

  6. What language? Connectivity Modular programming Programming

  7. Using Arduino Open Source C/C++ Language Arduino - Language [3]

  8. USB cable (A to B) Any USB port Any OS Connection Top [4], Below [5]

  9. Block coding Easy to adjust Many different applications Modular in design [6]

  10. Contact Information: • Chris Miller • ECE Department, University of Utah • u0528821@utah.edu • Sources • [1]-”Safe”,Apr.11, 2010. [Online]. Available: http://img.archiexpo.com/images_ae/photo-g/electronic-safe-for-hotel-rooms-55624.jpg • [2]-”Programing”,Apr.11, 2010. [Online]. Available: http://arduino.cc/en/Guide/Windows • [3]-”Ardiuno Mega”,Apr.11, 2010. [Online]. Available: http://www.libelium.com/tienda/catalog/images/arduino_mega.jpg • [4]-”Ardiuno Mega_2”,Apr.11, 2010. [Online]. Available: http://upload.wikimedia.org/wikipedia/commons/f/f9/Arduino_usb_socket-1.jpg • [5]-”USB Cable”,Apr.11, 2010. [Online]. Available: http://www.gttkc.com/shop/images/USB-AB.jpg • [6]-”Block Diagram”,Apr.11, 2010. [Online]. Available: http://www.medallionsystem.com/computers/images/TPC43B_block_diagram.png Questions?

  11. [1] By: David Brown [2] Sensor Testing

  12. Requirements Testing Types of Sensors Sensor Testing overview

  13. Detect all attempts to break into box Never have a false positive Conserve power Sensor Requirements

  14. Various Types of Sensors Accuracy Power Usage Sensor testing

  15. Accelerometer Vibration Limit Switch Flex sensor Thermal sensor Examples of sensors [3] [4]

  16. Contact Information: • David Brown • ECE Department, University of Utah • u0527853@utah.edu • Sources • [1]- “Accelerometer”, Apr. 10, 2010. [Online]. Available: http://www.sparkfun.com/commerce/ product_info.php?products_id=252, Apr. 10, 2010]. • [2]- “Piezoelectric Vibration Sensor”, Apr. 10, 2010. [Online]. Available: http://media.digikey.com/photos/Measurement%20Specialties%20Photos/0-1005447-1.jpg, Apr. 10, 2010]. • [3]- “Limit Switch”, Apr. 10, 2010. [Online]. Available: http://media.digikey.com/photos/Panasonic%20Photos/ESE-11MH6T.jpg, Apr. 10, 2010]. • [4]- “Thermal Sensor”, Apr. 10, 2010 [Online]. Available: http://www.sparkfun.com/commerce/product_info.php?products_id=9570, Apr. 10, 2010]. Questions?

  17. [1] [2] By: Joshua Hamilton Power Conditioning

  18. Reasoning: • Advanced detection functions require power • Zero false positives • No unauthorized access • Cannot be powered externally • Safe must stay secure until maintenance Power Conditioning

  19. Requirements of power source • Necessary 1 year lifespan with a goal of 2 • Cannot be tampered • Power detection sensors • Safely power the Arduino controller • Dependable Power Conditioning

  20. Method • Modes of operation • Wake up sensors • Self powered vibration sensors • Low power design • Efficient overall design • No leakage Power Conditioning Fig. 1 Piezoelectric vibration sensor [3]

  21. Implementation • Arduino Mega vs Arduino Pro-Mini • Piezoelectric wake-up circuit • Choice of battery • Lithium has highest power density • Sensitive to high temperature • May need a controller Power Condtioning

  22. Conclusion • Test two types of batteries • Arduino backpack • Energizer e2* AA batteries Power Condtioning Fig. 2 Arduino backpack [4] * “E2 Datasheet”, Apr. 8, 2010. [Online]. Available: http://Energizer-L91BP-8-Lithium-Battery-8-Pack/dp/B0000DC4EL

  23. Contact Information: • Joshua Hamilton • ECE Department, University of Utah • Jham111@hotmail.com • Sources: • [1] “Synqor”, Apr.8,2010. [Online]. Available: http://www.synqor.com • [2]”Vicor”, Apr.8,2010.[Online].Available: http://www.vicr.com • [3] “Lithium Backpack”, Apr. 8, 2010. [Online]. Available: http://www.liquidware.com/shop/show/BP/Lithium+Backpack • [4] “Vibration Sensor/Switch” ,Apr. 8, 2010. [Online]Available: http://search.digikey.com/scripts/DkSearch/dksus.dll?Detail&name=MSP1007-ND Questions?

  24. [1] By: Arslan Majid [2] Creating the Interface

  25. Use Labview to create a GUI • Display GUI on an external source (Laptop) • Goal- wireless Creating the interface [2]

  26. Will carry out the following states of security system: Tasks to accomplish • Authorized user • Open container • Access contents • Close container • Do not tamper container • Security access • Allow transport • Reset alarm status • Check status report • Do not access contents • Maintenance access • Change power supply • Software/hardware upgrades • Do not access contents

  27. Sample Menu • While on menu- • Sensors detect suspicious activity • Will display a warning if sensors set alarm off • Sub-menus corresponding to different states of security will also be displayed

  28. Timeline

  29. Budget

  30. Utilize an array of sensors Low power / Sleep mode Optimize for small size Accept wireless input Provide alarm signal Conclusion

  31. Contact Information: • Arslan Majid • ECE Department, University of Utah • u0537027@utah.edu • Sources • [1]- “LabView Logo”, Apr. 4, 2010. [Online]. Available: http://www.bluesystem.ca/LabVIEW_Certified_Developer.jpg[Accessed: Apr. 4, 2010]. • [2]- “Bluetooth Arduino”, Apr. 4, 2010. [Online]. Available: http://cnmat.berkeley.edu/system/files/sensor_modules/Arduino-BT-01-L.jpg, Apr. 4, 2010]. • [3]- “Bluetooth Arduino”, Apr. 4, 2010. [Online]. Available: http://www.sparkfun.com/commerce/product_info.php?products_id=9358, Apr. 4, 2010]. Questions?

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