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Project Glide: Remote Garage Door Control System Development

Project Glide aims to develop a remote garage door control system using various digital devices, including DAA and DTMF for user interaction and feedback via a voice chip. Managed by a team from the University of Portland School of Engineering, this project covers system design, testing, integration, and troubleshooting. Recent accomplishments include completed schematics and power analysis. Upcoming plans focus on testing key components and ensuring functionality. Concerns regarding effective operation of the garage door opener are being addressed with potential solutions identified.

nicholas-madden
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Project Glide: Remote Garage Door Control System Development

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  1. Project GlideGarage Door Tele-Controller • Advisors • Dr. Lillevik, Dr. Osterberg & Dr. Hoffbeck • Industry Representatives • Mr. Steve Kassel (Mathstar) • Mr. Paul Menig (Freightliner) Team Graham Linn Srija Pidaparthy Marc Miyaki University of Portland School of Engineering

  2. Overview • Introduction • Accomplishments • Plans • Milestones • Concerns/Issues • Conclusions University of Portland School of Engineering

  3. Introduction • Project Glide will use several digital devices: • DAA (connect to phone) • DTMF Decoder (to interpret info from user) • Voice Chip (to play back messages to the user) • MOSIS Chip (to control the system) University of Portland School of Engineering

  4. Block Diagram University of Portland School of Engineering

  5. Demo: Voice Chip University of Portland School of Engineering

  6. Scorecard • Complete System Schematic (DONE) • Get Design Approved (DONE) • Test Functionality of DAA (in progress) • CPLD on breadboard and tested (need to test) • Power supply integrated and tested (in progress) • Off Chip Logic Implemented and tested. (implemented, need to test) University of Portland School of Engineering

  7. Additional Accomplishments • Completed AC/DC/Power Analysis • Found & ordered additional critical parts University of Portland School of Engineering

  8. Plans for February • Test functionality of DAA & DTMF • Install on breadboard and test: • CPLD • Power supply • Off Chip Logic • DAA, DTMF, Voice Chip • Execute TOPS approval meeting University of Portland School of Engineering

  9. Milestones University of Portland School of Engineering

  10. Concerns/Issues • Need to test DAA and DTMF • Will garage door opener work? University of Portland School of Engineering

  11. Possible Solutions • Hook up DAA & DTMF • Test garage door opener University of Portland School of Engineering

  12. Conclusions • Project Glide: • A device to remotely control a garage door • Scorecard • Plans: • Install and test • Complete TOPS University of Portland School of Engineering

  13. Questions? (glide 2.0) University of Portland School of Engineering

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