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C.O.S.O - Project Proposal

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ES
Esta es la presentación inicial de la propuesta del proyecto C.O.S.O expuesta en el marco de Interactivos?'17 en el Medialab Prado de Madrid en Mayo 2017.
EN
This is the proposal presentation for the C.O.S.O project delivered during Interactivos?' 17 in the Medialab Prado in Madrid on May 2017

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C.O.S.O - Project Proposal

  1. 1. COSO Project Proposal by Pablo Fernández Vallejo Interactivos?'17
  2. 2. Digital Art Citizen Science Sustainability
  3. 3. Sustainable Mobility
  4. 4. Path is free from debris Path is free from surface defects Path links to key destination Safety Path links to other parts of the off-road network The vegetation is maintained to a suitable standard Surface roughness Personal Satisfaction Path is direct (cutting down travel time) Air quality Attractiveness Comfort Path has direction signs Path is free from surface defects Calvey, J., Shackleton, J., & Llewellyn, R. (2015). Engineering condition assessment of cycling infrastructure: Cyclists perceptions of satisfaction and comfort.
  5. 5. Citizens Riders as sensors
  6. 6. Input Output Accelerometer Light
  7. 7. Accelerometer Input Output Light
  8. 8. Immaterials: Light painting WiFi Arnall · Knutsenand · Martinussen
  9. 9. Collaborators Digital Fab. Developing case & bike mount. Electronics Programming Photography Bikes Design PROTOTYPING 3D PRINTING / LASER CUT Develop code for the prototype. C++ Be the bikers advocate. Be amazing. Build electronic pack. RASPBERRY PI SENSORS Work with light patterns. Create the photography setup. LONG EXPOSURE Design around hardpoints. 3D MODELLING
  10. 10. Digital Fab. Developing case & bike mount. Electronics Programming Photography Bikes Design PROTOTYPING 3D PRINTING / LASER CUT Develop code for the prototype. C++ Be the bikers advocate. Be amazing. Build electronic pack. RASPBERRY PI SENSORS Work with light patterns. Create the photography setup. LONG EXPOSURE Design around hardpoints. 3D MODELLING Collaborators
  11. 11. Digital Fab. Developing case & bike mount. Electronics Programming Photography Bikes Design PROTOTYPING 3D PRINTING / LASER CUT Develop code for the prototype. C++ Be the bikers advocate. Be amazing. Build electronic pack. RASPBERRY PI SENSORS Work with light patterns. Create the photography setup. LONG EXPOSURE Design around hardpoints. 3D MODELLING Collaborators
  12. 12. Questions? All Icons are self made or from The Noun Project Users: teleymon, Adrien Coquet, LA Hall, Keiran Lovett, Vladimir Belochkin, DesignBite, Kevin Schumacher, logan References: Identifying factors of bicycle comfort: An online survey with enthusiast cyclists. Ayachi, F. S., Dorey, J., & Guastavino, C. (2015). Engineering condition assessment of cycling infrastructure: Cyclists perceptions of satisfaction and comfort. Calvey, J., Shackleton, J., & Llewellyn, R. (2015). Influences on bicycle use. Hunt, J. D., E Abraham, A. J., Abraham, J. E., & Hunt AE J E Abraham, J. D. (2007). How comfortable are your cycling tracks? A new method for objective bicycle vibration measurement. Bíl, M., Andrášik, R., & Kubeček, J. (2015). Raspberry Pi as a low-cost data acquisition system for human powered vehicles. Ambrož, M. (2017) Cycling comfort on different road surfaces. Hölzel, C., Höchtl, F., & Senner, V. (2012). Measurement of dynamic comfort in cycling using wireless acceleration sensors. Olieman, M., Marin-Perianu, R., & Marin-Perianu, M. (2012).
  13. 13. Gracias!

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