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<small>< [[HSC2011]]</small>
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'''How reproducible is the final project?'''
 
'''How reproducible is the final project?'''
  
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* we came up with extraordinary solutions to some of the challenges in this project, including a virtual machine that runs on the ATMEGA platform, a highlevel language + compiler and a language implementation in python!
 
* we came up with extraordinary solutions to some of the challenges in this project, including a virtual machine that runs on the ATMEGA platform, a highlevel language + compiler and a language implementation in python!
 
* the frontend applications are implemented in javascript to provide the interested users a way to implement their own applications with ease
 
* the frontend applications are implemented in javascript to provide the interested users a way to implement their own applications with ease
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[[Category:HSC2011]]

Version vom 1. Mai 2011, 20:35 Uhr

< HSC2011

How reproducible is the final project?

  • basic microcontroller knowledge is necessary, but we could offer a complete kit and preflashed MCUs if this is a demand
  • there are different implementation methods to pic from, starting with a simple arduino shild to soldering a complete pcb and 3d printing a matching enclosure


How easily can the parts be sourced in locations around the world?

  • all parts are available trough element-14
  • we use only widely available parts, the only "exotic" thing in the design is the rfm12b module, but thats becoming available all over the world recently
  • it is very well documentated and reproducable


How low cost is the final output?

  • very low cost! we might even create a pool to have these devices produced on a larger scale if we get enough positive feedback and interest


How well are the plans documented?

  • we have vidoes, pictures, detailed assemble instructions, and soon a dedicated website for this project where people can exchange their questions and answers online


How relevant is the project to the educational goals of schools today?

  • our project will make education more fun and collaborative
  • we implemented much more than just one solution to a specific problem but created a whole new concept of teacher-student interaction that will bring new ways of teaching to schools and will enable the community to create interactive learning applications on their own!
  • there is a wide spectrum of possibilities what can be done with our system


How inventive and creative is the design and build of the project

  • we used different modeling and manufacturing processes including a lasercutter and a 3d-printer, while these techniques are way cool they are not needed to create a working product to tinker with
  • we used agile development and had many small groups each one dedicated to a special area of the project, we used various channels of communication in real life and on the interwebs to synchronize the tasks :)
  • we came up with extraordinary solutions to some of the challenges in this project, including a virtual machine that runs on the ATMEGA platform, a highlevel language + compiler and a language implementation in python!
  • the frontend applications are implemented in javascript to provide the interested users a way to implement their own applications with ease