Oscar S. Siordia, Isaac Martín de Diego, Cristina Conde, Enrique Cabello


In this paper, an in-vehicle complaint recording device is presented. The device is divided in independent systems for image and audio data acquisition and storage. The systems, designed to work under in-vehicle complaint devices, use existent in-vehicle wireless architectures for its communication. Several tests of the recording device in a highly realistic truck simulator show the reliability of the developed system to acquire and store driver related data. The acquired data will be used for the development of a valid methodology for the reconstruction and study of traffic accidents.


  1. Brazalez, A., Delgado, B., Sevillano, M., Garca, I., and Matey, L. (2008). CABINTEC: Cabina inteligente para el transporte por carretera. In Proc. of the Congreso Espan˜ol de Sistemas Inteligentes de Transporte.
  2. CABINTEC (2011). Cabintec: Intelligent cabin truck for road transport. http://www.cabintec.net.
  3. Chet, N. C. (2003). Design of black box for moving vehicle warning system. In Research and Development, 2003. SCORED 2003. Proceedings. Student Conference on, pages 193 - 196.
  4. Clark, D. D. (1988). The design philosophy of the darpa internet protocols. In SIGCOMM, pages 106-114.
  5. Crespo, R., de Diego, I. M., Conde, C., and Cabello, E. (2010). Detection and tracking of driver's hands in real time. In Bloch, I. and Cesar, R. M., editors, CIARP, volume 6419 of Lecture Notes in Computer Science, pages 212-219. Springer.
  6. Dingus, T. A., Klauer, S., Neale, V. L., Petersen, A., Lee, S. E., Sudweeks, J., Perez, M. A., Hankey, J., Ramsey, D., Gupta, S., Bucher, C., Doerzaph, Z. R., Jermeland, J., and Knipling, R. (April 2006). The 100-car naturalistic driving study. Technical report, Virginia Tech Transportation Institute, NHTSA.
  7. Jiang, L. and Yu, C. (2010). Design and implementation of car black box based on embedded system. In Electrical and Control Engineering (ICECE), 2010 International Conference on, pages 3537 -3539.
  8. Jung, S. M. and Lim, M. S. (2007). System on chip design of embedded controller for car black box. In Information Technology Convergence, 2007. ISITC 2007. International Symposium on, pages 217 -221.
  9. Kassem, A., Jabr, R., Salamouni, G., and Maalouf, Z. (2008). Vehicle black box system. In Systems Conference, 2008 2nd Annual IEEE, pages 1 -6.
  10. Khanapurkar, M., Bajaj, P., and Gharode, D. (2008). A design approach for intelligent vehicle black box system with intra-vehicular communication using lin/flex-ray protocols. In Industrial Technology, 2008.
  11. ICIT 2008. IEEE International Conference on, pages 1 -6.
  12. Kwag, S.-J. and Lee, S.-S. (2006). Performance evaluation of ieee 802.11 ad-hoc network in vehicle to vehicle communication. In Proceedings of the 3rd international conference on Mobile technology, applications & systems, Mobility 7806, New York, NY, USA. ACM.
  13. Micron, T. (2006). MT9P031 - CMOS digital image sensor data sheet. (www.aptina.com) (rev. feb. 2011). http://www.aptina.com.
  14. Paschos, G. (1999). A color space performance comparison in the processing of color textured images: Rgb vs. l*a*b*. In PICS, pages 200-203. IS&T - The Society for Imaging Science and Technology.
  15. Sakamoto, T., Nakanishi, C., and Hase, T. (1998). Software pixel interpolation for digital still cameras suitable for a 32-bit mcu. Consumer Electronics, IEEE Transactions on, 44(4):1342 -1352.
  16. Saravanan, K., Arunkumar, T., and K., R. (2009). A middleware architectural framework for vehicular safety over vanet invanet. Networks & Communications, International Conference on, 0:277-282.
  17. Siordia, O. S., de Diego, I. M., Conde, C., Reyes, G., and Cabello, E. (2010). Driving risk classification based on experts evaluation. In Proceedings of the 2010 IEEE Intelligent Vehicles Symposium (IV 7810), pages 1098-1103.
  18. Trezise, I., Stoney, E., Bishop, B., Eren, J., Harkness, A., Langdon, C., and Mulder, T. (2006). Report of the road safety committee on the inquiry into driver distraction. Road Safety Committee, Parliament of Victoria, Melbourne, Victoria, Australia.
  19. Tropp, J., Laska, J., Duarte, M., Romberg, J., and Baraniuk, R. (2010). Beyond nyquist: Efficient sampling of sparse bandlimited signals. Information Theory, IEEE Transactions on, 56(1):520-544.
  20. Wallace, G. K. (1991). The jpeg still picture compression standard. Communications of the ACM, pages 30-44.
  21. Wang, J. S., Knipling, R. R., and Goodman, M. J. (1996). The role of driver inattention in crashes; new statistics from the 1995 crashworthiness data system. Proceedings of 40th Annual meeting of the Association for the Advancement of Automotive Medicine.

Paper Citation

in Harvard Style

S. Siordia O., Martín de Diego I., Conde C. and Cabello E. (2011). WIRELESS IN-VEHICLE COMPLAINT DRIVER ENVIRONMENT RECORDER . In Proceedings of the International Conference on Signal Processing and Multimedia Applications - Volume 1: SIGMAP, (ICETE 2011) ISBN 978-989-8425-72-0, pages 52-58. DOI: 10.5220/0003567300520058

in Bibtex Style

author={Oscar S. Siordia and Isaac Martín de Diego and Cristina Conde and Enrique Cabello},
booktitle={Proceedings of the International Conference on Signal Processing and Multimedia Applications - Volume 1: SIGMAP, (ICETE 2011)},

in EndNote Style

JO - Proceedings of the International Conference on Signal Processing and Multimedia Applications - Volume 1: SIGMAP, (ICETE 2011)
SN - 978-989-8425-72-0
AU - S. Siordia O.
AU - Martín de Diego I.
AU - Conde C.
AU - Cabello E.
PY - 2011
SP - 52
EP - 58
DO - 10.5220/0003567300520058