TY - JOUR T1 - Acceleration Logger and Analyzer AU - Kayısoglu, Gizem AU - Canpolat, Seda AU - Aydın, Aysenur Dilara AU - Kucuktas, Nehir AU - Huner, Metin PY - 2019 DA - November JF - The Eurasia Proceedings of Science Technology Engineering and Mathematics JO - EPSTEM PB - ISRES Publishing WT - DergiPark SN - 2602-3199 SP - 9 EP - 22 VL - 7 LA - en AB - In the case of high acceleration values, it isimportant to obtain data on the vehicles used by third parties in order toprevent possible accidents. For this purpose, it is aimed to design anelectronic system which will record the acceleration values of a vehicle duringits journey and then to analyze it. Thanks to the accelerometer sensor placedin an experimental vehicle, the g force data that the vehicle was exposed towere obtained and analyzed by Arduino to determine which speeds the driverswere subjected to during the journey. The final product created in the study isan electronic device consisting of an Arduino, an accelerometer and an ArduinoSD card reader module. After the physical connection between the elements wereestablished, the Arduino interface was installed in the computer to obtain theinstantaneous acceleration values in the direction of the acceleration of theaccelerometer. After completing the physical installation of the circuit,different routes were determined within the scope of determined route in orderto observe the acceleration values for different situations. The axes in eachroute obtained were analyzed separately by Matlab and the acceleration valueswere 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 atthe z-axis were encountered during a normal driving. In contrast, in the caseof unsafe use of the same vehicle, the values of +0.41 / -0.63 g on the highestx-axis, +0.33 / -0.36 g on the y-axis and +0.18 / -0.18 g on the z-axis wereencountered. When the results obtained are shared with the sector and theirview are received, the results of our study have been shown to be supportive ofthe data that the companies have already pursued, and have the characteristicsthat can meet the needs of the sector. KW - Acceleration KW - Arduino KW - Matlab KW - Acceleration Logger KW - Sensor CR - 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 UR - https://dergipark.org.tr/en/pub/epstem/issue//650446 L1 - https://dergipark.org.tr/en/download/article-file/861183 ER -