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Year 2019, Volume: 7 , 9 - 22, 24.11.2019

Abstract

References

  • Türkiye İstatistik Kurumu. (2018). Ulaştırma istatistikleri, Access adresi http://www.tuik.gov.tr/PreTablo.do?alt_id=1051 URL 1 < https://www.kozmikanafor.com/g-kuvveti-nedir/ >, access: 30.01.2019 URL 2 < https://www.telegraph.co.uk/motoring/motorsport/7681665/Formula-One-drivers-feel-the-G-force.html >, access: 30.01.2019. Mane, A., & Rana, J. (2014). Vehicle collision detection and remote alarm device using Arduino. International Journal of Current Engineering and Technology, 4(3). Mahamud, M. S., Monsur, M., & Zishan, M. S. R. (2017). An arduino based accident prevention and identification system for vehicles. Paper presented at the 2017 IEEE Region 10 Humanitarian Technology Conference (R10-HTC). URL 3<https://gelecegiyazanlar.turkcell.com.tr/konu/arduino/egitim/arduino-401/spi-protokolu>, access: 03.02.2019 URL 4 < http://pdf1.alldatasheet.com/datasheetpdf/view/254714/AD/ADXL345.html >, access: 18.05.2019 URL 5 < https://www.vishnumaiea.in/projects/hardware/interfacing-catalex-micro-sd-card-module>, access 17.05.2019. URL 6 < https://www.vishnumaiea.in/projects/hardware/interfacing-catalex-micro-sd-card-module >, access 15.05.2019

Acceleration Logger and Analyzer

Year 2019, Volume: 7 , 9 - 22, 24.11.2019

Abstract

In the case of high acceleration values, it is
important to obtain data on the vehicles used by third parties in order to
prevent possible accidents. For this purpose, it is aimed to design an
electronic system which will record the acceleration values of a vehicle during
its journey and then to analyze it. Thanks to the accelerometer sensor placed
in an experimental vehicle, the g force data that the vehicle was exposed to
were obtained and analyzed by Arduino to determine which speeds the drivers
were subjected to during the journey. The final product created in the study is
an electronic device consisting of an Arduino, an accelerometer and an Arduino
SD card reader module. After the physical connection between the elements were
established, the Arduino interface was installed in the computer to obtain the
instantaneous acceleration values in the direction of the acceleration of the
accelerometer. After completing the physical installation of the circuit,
different routes were determined within the scope of determined route in order
to observe the acceleration values for different situations. The axes in each
route obtained were analyzed separately by Matlab and the acceleration values
were plotted. According to the results of the analysis, a maximum of +0.22 /
-0.34 g at the x-axis and +0.26 / -0.25 g at the y-axis and +0.15 / -0.17 g at
the z-axis were encountered during a normal driving. In contrast, in the case
of unsafe use of the same vehicle, the values of +0.41 / -0.63 g on the highest
x-axis, +0.33 / -0.36 g on the y-axis and +0.18 / -0.18 g on the z-axis were
encountered. When the results obtained are shared with the sector and their
view are received, the results of our study have been shown to be supportive of
the data that the companies have already pursued, and have the characteristics
that can meet the needs of the sector.

References

  • Türkiye İstatistik Kurumu. (2018). Ulaştırma istatistikleri, Access adresi http://www.tuik.gov.tr/PreTablo.do?alt_id=1051 URL 1 < https://www.kozmikanafor.com/g-kuvveti-nedir/ >, access: 30.01.2019 URL 2 < https://www.telegraph.co.uk/motoring/motorsport/7681665/Formula-One-drivers-feel-the-G-force.html >, access: 30.01.2019. Mane, A., & Rana, J. (2014). Vehicle collision detection and remote alarm device using Arduino. International Journal of Current Engineering and Technology, 4(3). Mahamud, M. S., Monsur, M., & Zishan, M. S. R. (2017). An arduino based accident prevention and identification system for vehicles. Paper presented at the 2017 IEEE Region 10 Humanitarian Technology Conference (R10-HTC). URL 3<https://gelecegiyazanlar.turkcell.com.tr/konu/arduino/egitim/arduino-401/spi-protokolu>, access: 03.02.2019 URL 4 < http://pdf1.alldatasheet.com/datasheetpdf/view/254714/AD/ADXL345.html >, access: 18.05.2019 URL 5 < https://www.vishnumaiea.in/projects/hardware/interfacing-catalex-micro-sd-card-module>, access 17.05.2019. URL 6 < https://www.vishnumaiea.in/projects/hardware/interfacing-catalex-micro-sd-card-module >, access 15.05.2019
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Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Gizem Kayısoglu

Seda Canpolat

Aysenur Dilara Aydın

Nehir Kucuktas

Metin Huner

Publication Date November 24, 2019
Published in Issue Year 2019Volume: 7

Cite

APA Kayısoglu, G., Canpolat, S., Aydın, A. D., Kucuktas, N., et al. (2019). Acceleration Logger and Analyzer. The Eurasia Proceedings of Science Technology Engineering and Mathematics, 7, 9-22.