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Adjustable Book Shelf

Adjustable Book Shelf. Team Members : Ankit Dhawan Vineet Alva Shohei Shibata Avirul Sharma. Agenda . List of Accomplishments in Fall 2003 Design Parameters Slide Down Concept Plans for this semester. Past Accomplishments. New project was established

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Adjustable Book Shelf

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  1. Adjustable Book Shelf Team Members : Ankit Dhawan Vineet Alva Shohei Shibata Avirul Sharma

  2. Agenda • List of Accomplishments in Fall 2003 • Design Parameters • Slide Down Concept • Plans for this semester

  3. Past Accomplishments • New project was established • Problem defined, design parameters set • Concepts designed • Ideas were eliminated down to one concept

  4. Design Parameters • Cost less than $500 • Requires very little muscle force by user • Hold at least 8 – 10 books • Makes use of current dorm shelving unit • All books are attainable from a seated position

  5. Slide Down Bookshelf Design • An adjustable bookshelf that fits inside the existing shelf. • Slides down at an angle onto the desk. • It will contain about 120lbs of books when fully packed.

  6. Semester Plans • Reconsider concept from past semester • Cost analysis (must be under $500 per shelf) • Practicality: Is an easier solution achievable? • Construct several other concepts • Decision Matrix: make 1st and 2nd choices • Create mathematical models, 3-d models • List materials and complete cost analysis

  7. ICM • Objective: To help students with physical disabilities locate the best accessible path between campus locations by drawing a map Interactive Campus Map

  8. Group Members • Abdul Zahid • Avirul Sharma • Brian Eng • Saad Sami

  9. Phase of the Design Process • We are currently in the production phase - Kiosk mostly completed • No more costs in the project - Everything has been purchased

  10. Semester Goals • Install functioning Kiosk in MSEE Building • Expand area, and plan improvements • Resizing existing map • Turn by turn directions • Actual distance calculations • Voice recognition & synthesis

  11. Tasks • Obtain more GPS coordinates to complete the campus coverage • Develop a method to crop the map for faster loading • Write code for turn by turn directions • Improve path drawing algorithm

  12. Web-Interface • Facilitates channeling of the user input data to the best path implementation routine • Simple and easy to use • Easy to maintain for future semesters • Accessible via home computers, not just kiosk

  13. Nodes in the Map

  14. Node Database • Database example • For GPS coordinates (Latitude, Longitude)

  15. This Semester • Got the new members acquainted with the project • Briefed the project partner on the current status

  16. Semester Timeline

  17. Questions?

  18. GPS-DVIGlobal Positioning System - Device for the Visually Impaired Howard Lityo Sak Mahasuverachai Ryan Hicks Michael Alexander Sivanit Ratanadib Bryn Nealis -- Advisor : Prof. Irith Pomeranz Prof. Rajesh Subramanyan -- TA : Juan Pertierra

  19. Overview • Introduction • Team Transition Activities • Current Status • Project Partner Meeting • Semester Plan

  20. Introduction • Objective : To design and implement a portable device that will enable students who are visually impaired to navigate around campus with the use of the global positioning system. • Solution : Program – “Campus-NAV” Integrates GPS receiver and PDA to help user navigate around campus.

  21. Team Transition Activities • Inform new members • Built semester plans/Gantt Chart • Acquired Equipments • Project Partner meeting • Skill Session

  22. Team Organization • Defined sub-groups for each task

  23. Current Status • GPS Receiver • Receive GPS-Coordinates (NMEA-Sentence) • Testing GUI • Open/Close/Read Port • Display NMEA-Sentence --Time, Longitude, Latitude, Velocity, GPS-Status etc. -- unable to update continuously

  24. • • • • • • • • • • • • • • GPS-DVI System GUI Pocket PC hp jornada 1 2 3 4 5 6 8 9 7 Reset 0 Enter Power

  25. Current Status • Voice Output • Verbal response to user’s input • Text Aloud Software • Creates MP3 file from text input • Search Algorithm • Finds shortest path from source node to destination node • Dijkstra’s Algorithm • Campus Map • Campus Database • Adjacency Matrix

  26. Campus Database • Node x y NumAdjNode AdjNodes Comment • 0 0 0 1 0 Origin • 1 24 1 2 2 17 MSEE • 2 25 1 1 1 Physics • 3 16 1 1 22 EE • 4 16 5 2 22 23 ME • 5 9 1 1 36 EET • 6 9 5 2 35 36 Potr • 7 29 8 2 18 37 CE • 8 36 8 1 18 CIVIL • 9 26 10 1 19 Scheleman • 10 30 16 1 21 BuildX • 11 20 10 2 19 24 Hovd • 12 11 9 2 13 30 SS • 13 9 9 3 12 31 35 ENAD • 14 2 18 1 34 Pshsy • 15 2 14 2 32 33 SC • 16 19 14 1 27 Elliot • 17 24 3 3 1 22 37 Int • 18 32 8 2 7 8 Int • 19 24 10 3 11 20 37 Int • 20 25 12 2 19 21 Int • The GUI displays shortest path from source to destination.

  27. Adjacency Matrix

  28. Project Partner Meeting • Update project partner with current status • Received feedback from project partner • Plan to meet project partner on a regular basis (once in 4 – 6 weeks)

  29. Semester Plan/Gantt Chart

  30. Thank You!

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