Deteksi Helm pada Pengguna Sepeda Motor dengan Metode Convolutional Neural Network
(1) Program Studi Informatika
(2) Program Studi Informatika
(3) Program Studi Informatika
(*) Corresponding Author
Abstract
In order to ensure security measures, traffic violations are an important matter. One of the most traffic violations is the use of helmets on motorcycle riders. Therefore, a program was created that could help in identifying helmet users for motorcycle riders. In the process of identifying data, a problem that is often experienced is helmet characteristics. In this study a filter experiment will be conducted in order to recognize the characteristics of the helmet. This study uses 2 methods, You Only Look Once (YOLO) and Convolutional Neural Network (CNN). The YOLO method is used to find regions of motorbikes and motorbike riders. The CNN method is used to classify helmet users in motorcycle riders. The results of the CNN classification will be calculated using a confusion matrix in order to get the accuracy of the correct prediction. The program results from this study will identify helmet users on motorcyclists in the video. Accuracy obtained between motorcycle riders driving with helmets and without helmets is 70.49%.
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dataschool. 2014, March 25. Retrieved November 19, 2019, from dataschool: https://www.dataschool.io/simple-guide-to-confusion-matrix-terminology/
Adam, A., Rivlin, E., Shimshoni, I., & Reinitz, D. 2008. IEEE Transactions on Pattern Analysis and Machine Intelligence. Robust Real-Time Unusual Event Detection using Multiple Fixed-Location Monitors, 30(3), 555-560.
Chen, Y., Jiang, H., Li, C., Jia, X., & Ghamisi, P. 2016. IEEE Transactions on Geoscience and Remote Sensing. Deep Feature Extraction and Classification of Hyperspectral Images Based on Convolutional Neural Networks, 54(10), 6232-6251.
Gupta, D. 2017, June 29. Architecture of Convolutional Neural Networks (CNNs) demystified. Retrieved Oktober 22, 2019, from Architecture of Convolutional Neural Networks (CNNs) demystified: https://www.analyticsvidhya.com/blog/2017/06/architecture-of-convolutional-neural-networks-simplified-demystified/
Hamilton, H. 2018, July 9. Computer Science. Retrieved November 1, 2019, from Knowledge Discovery in Databases: http://www2.cs.uregina.ca/~dbd/cs831/index.html
Narkhede, S. 2018, May 9. Understanding Confusion Matrix. Retrieved November 2019, 20, from Understanding Confusion Matrix: https://towardsdatascience.com/understanding-confusion-matrix-a9ad42dcfd62
Nayazri, G. M. 2018, February 4. Home : News. Retrieved November 10, 2019, from Kompas Web site: https://otomotif.kompas.com/read/2018/02/04/090200615/ini-standar-helm-sepeda-motor-sesuai-sni?page=all
POLRI, K. 2013. ACCIDENT DATA: VEHICLE TYPE. Retrieved September 11, 2019, from KORLANTAS POLRI Web Site: http://korlantas-irsms.info/graph/vehicleTypeData
Redmon, J., & Farhadi, A. 2018. YOLOv3: An Incremental Improvement.
Redmon, J., Divvala, S., Girshick, R., & Farhadi, A. 2016. 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR). You Only Look Once: Unified, Real-Time Object Detection.
Rosebrock, A. 2018, November 12. pyimagesearch. Retrieved Oktober 20, 2019, from pyimagesearch: https://www.pyimagesearch.com/2018/11/12/yolo-object-detection-with-opencv/
Shubham, J. 2018, July 15. Medium Web site. Retrieved October 20, 2019, from What exactly does CNN see?: https://becominghuman.ai/what-exactly-does-cnn-see-4d436d8e6e52
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