PRE2018 3 Group12

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Group Members

Name Study Student ID
Harm van den Dungen Electrical Engineering 1018118
Nol Moonen Software Science 1003159
Johan van Poppel Software Science 0997566
Maarten Flippo Software Science 1006482


Different designs

gloves

shoes

Bril?

Geluid toevoegen zoals vleermuizen? -> Doppler effect gebruiken voor bewegingen. -> dit kan gedaan worden met icm radar -> groot bereik

Deliverables

A prototype that aids blind people roam around areas, that are unknown to them. This prototype is based on the design of last year[1]. From this design, a new design was made that tries to improve on the issues the previous design faced. Additionally, a wiki will be made that helps with giving additional information about the protoype, such as costs, components and it gives some backstory of the subject. Finally, a presentation is made regarding the final design and prototype.

Requirements

Approach

Milestones

  • Completing the design of the prototype
  • Finish building the prototype
  • Prototype is fully debugged and all components work as intended
  • Prototype follows 50% of the requirements
  • Prototype follows 75% of the requirements
  • Prototype follows 100% of the requirements

references 1

[2] [3] [4] [5] [6] [7] [8]

References

  1. Boekhorst, B, te. Kruithof, E. Cloudt, Stefan. Cloudt, Eline. Kamperman, T. (2017). Robots Everywhere PRE2017 3 Groep13. http://cstwiki.wtb.tue.nl/index.php?title=PRE2017_3_Groep13
  2. Pereira, A., Nunes, N., Vieira, D., Costa, N., Fernandes, H. & Barroso, J. (2015). Blind Guide: An ultrasound sensor-based body area network for guiding blind people. Procedia Computer Science, 67, 403–408. https://doi.org/10.1016/j.procs.2015.09.285
  3. Al-Mosawi, Ali. (2012). Using ultrasonic sensor for blind and deaf persons combines voice alert and vibration properties. Research Journal of Recent Sciences. 1. https://www.researchgate.net/publication/235769070_Using_ultrasonic_sensor_for_blind_and_deaf_persons_combines_voice_alert_and_vibration_properties
  4. T. Ifukube, T. Sasaki and C. Peng, "A blind mobility aid modeled after echolocation of bats," in IEEE Transactions on Biomedical Engineering, vol. 38, no. 5, pp. 461-465, May 1991. http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=81565&isnumber=2674
  5. Bousbia-Salah, M., Bettayeb, M. & Larbi, A. J Intell Robot Syst (2011) 64: 387. https://doi.org/10.1007/s10846-011-9555-7
  6. Bousbia-Salah M., Fezari M. (2007) A Navigation Tool for Blind People. In: Sobh T. (eds) Innovations and Advanced Techniques in Computer and Information Sciences and Engineering. Springer, Dordrecht. https://link.springer.com/chapter/10.1007%2F978-1-4020-6268-1_59
  7. P. Mihajlik, M. Guttermuth, K. Seres and P. Tatai, "DSP-based ultrasonic navigation aid for the blind," IMTC 2001. Proceedings of the 18th IEEE Instrumentation and Measurement Technology Conference. Rediscovering Measurement in the Age of Informatics (Cat. No.01CH 37188), Budapest, 2001, pp. 1535-1540 vol.3. http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=929462&isnumber=20096
  8. L. Dunai, G. P. Fajarnes, V. S. Praderas, B. D. Garcia and I. L. Lengua, "Real-time assistance prototype — A new navigation aid for blind people," IECON 2010 - 36th Annual Conference on IEEE Industrial Electronics Society, Glendale, AZ, 2010, pp. 1173-1178. http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5675535&isnumber=5674827
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