Pendeteksian Lubang Pada Jalanan Menggunakan Metode SSD-MobileNet

https://doi.org/10.22146/ijeis.60157

Ivan Besando Pakpahan(1*), Ika Candra Dewi(2)

(1) Prodi Elektronika dan Instrumentasi, DIKE, FMIPA UGM, Yogyakarta
(2) Departemen Ilmu Komputer dan Elektronika, FMIPA UGM, Yogyakarta
(*) Corresponding Author

Abstract


The rapid advancement of technology following the number of potholes on the streets that need to be inspected have led people to develop technology that can inspect pothole using a detection system. Digital image processing is a method used by some people to detect potholes by using its colour as the main extracted feature, after that the field of machine learning and deep learning approaches have been studied and developed in terms of detection, one of which is the ssd-mobilenet. In this study three types of dataset were used, they were obtained secondarily from various sources, namely the normal dataset, the dashboard dataset, and the closeup dataset. These three datasets will also be combined and varied in the amount of the training data with an increment of 500 data train so that various model results are obtained. The results obtained are the detection bounding boxes and also the confusion matrix score of each model dataset, where the normal dataset gets an accuracy score of 56%, the dashboard dataset gets 50% and the closeup dataset gets 76%.


Keywords


digital image processing; deep learning; ssd-mobilenet; confusion matrix

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References

Ernin N.U., Eko M.Y., Yoyon K.S., 2019, “Asphalt Pavement Pothole Detection Using Deep Learning method based on YOLO Neural Network”, IEEE, hal. 35-40

Nienaber S., Booysen MJ., Kroon R.S., 2015, “Detecting Potholes Using Simple Image Processing Techniques And Real-World Footage”, SATC, Pretoria, South Africa

Karmel A., Adhithiyan M., Senthil KP., “Machine Learning Based Approach For Pothole Detection”, IJCIET, hal. 882-888

Alzoubi, Alaa, 2018, “PotDataSet”, Cranfield Online Research Data (CORD), Dataset, https://doi.org/10.17862/cranfield.rd.5999699.v1, diakses tanggal 1 juni 2020

Arabi S., Haghighat A., Sharma A., 2019, “A deep learning based solution for construction equipment detection: from development to deployment”, Iowa State University

He K., Zhang X., Ren S., Sun J., 2015, “Deep Residual Learning for Image Recognition”, arXiv:1512.03385v1, diakses tanggal 10 juni 2020

Howard A. G., Zhu M., Chen B., Kalenichenko D., Wang W., Weyand T., Andreetto M., Adam H., 2017, “MobileNets: Efficient Convolution Neural Networks for Mobile Vision Applications”, GoogleInc

Sifre L, 2014, “Rigid-Motion Scattering For Image Classification”, CMAP

Liu W., Anguelov D., Erhan D., Szegedy C., 2015, “SSD: Single Shot Multibox Detector”, arXiv:1512.02325v5, diakses tanggal 3 juni 2020

Visa S., Ramsay B., Ralescu A., Knaap E., 2011, “Confusion Matrix-based Feature Selection”, https://www.researchgate.net/publication/220833270, diakses tanggal 10 juni 2020

Everingham M., Van Gool L., Williams C.K.I., Winn J., Zisserman A., “The PASCAL Visual Object Classes (VOC) Challenge”, International Journal of Computer Vision.



DOI: https://doi.org/10.22146/ijeis.60157

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