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| = Homemade GPS Receiver = |
{{attachment:gps0.jpg|gps0|width="300"}}{{attachment:gps1.jpg|gps1|width="300"}}{{attachment:gps2.jpg|gps2|width="300"}} == Homemade GPS Receiver == |
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== Relevant Links: == |
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| * Ahmed Saif === Tasks === * Understanding FPGAs Resources for FPGAs: [[http://www-old.physics.wisc.edu/undergrads/courses/fall2011/623/exp/fpga1.pdf|Physics 623 Guide 1]], [[http://www-old.physics.wisc.edu/undergrads/courses/fall2011/623/exp/fpga2.pdf|Physics 623 Guide 2]], [[http://www.eetimes.com/document.asp?doc_id=1274593|How to Design an FPGA from Scratch]] * Learning to Program in C Resources: [[http://www.cprogramming.com/|CProgramming.com]], [[http://ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-087-practical-programming-in-c-january-iap-2010/index.htm|MIT OCW]] |
Homemade GPS Receiver
This is relevant to both the monarch butterfly tracking project and the drones project. The goal would be to attempt to build a highly accurate GPS receiver from scratch, and then potentially modify the circuitry to improve efficiency and compactness to suit the needs of a broad range of projects.
Relevant Links:
Circuitry and Open Source Code by Andrew Holmes: http://www.holmea.demon.co.uk/GPS/Main.htm
Circuitry and Open Source Code for Real Time Kinematic GPS by Takasu/Yasuda of Tokyo University: http://gpspp.sakura.ne.jp/rtklib/rtklib_beagleboard.htm
People
- Ayah Almousa
- Ahmed Saif
Tasks
- Understanding FPGAs
Resources for FPGAs: Physics 623 Guide 1, Physics 623 Guide 2, How to Design an FPGA from Scratch
- Learning to Program in C
Resources: CProgramming.com, MIT OCW