Traffic Sign Detection and Recognition for Assistive Driving
The technology behind Advanced Driver Assistance Systems has been continuously advancing in recent years. This has been made possible by artificial intelligence and computer vision. In Automatic Traffic Sign Detection and Recognition System, accurate detection and recognition of traffic signs from t...
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Archīum Ateneo
2019
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| Online Access: | https://archium.ateneo.edu/discs-faculty-pubs/192 https://ieeexplore.ieee.org/abstract/document/8836161?casa_token=bUqymOH9kCgAAAAA:wAS0MjCsBGpZ1FKZLJmWm2gJsv1aqOREazH6GMOBlDOhSFSttE7zrMzSAA4GBvzoh13CtWFwbeI |
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ph-ateneo-arc.discs-faculty-pubs-11912020-07-08T08:37:53Z Traffic Sign Detection and Recognition for Assistive Driving Santos, Adonis Abu, Patricia Angela R Oppus, Carlos Reyes, Rosula SJ The technology behind Advanced Driver Assistance Systems has been continuously advancing in recent years. This has been made possible by artificial intelligence and computer vision. In Automatic Traffic Sign Detection and Recognition System, accurate detection and recognition of traffic signs from the complex traffic environment and varying weather and lighting conditions are still a big challenge. This study implements a traffic sign detection and recognition system. Bilateral filtering pre-processing technique is performed before detection phase to improve accuracy. Color thresholding in HSV color space followed by Hough transform are used for a more efficient segmentation of the region of interest. In recognition phase, Histogram of Oriented Gradients is extracted from candidate traffic signs as the key feature in classification. This study also determines which machine learning classifier will provide the best accuracy for traffic sign recognition. The classifiers evaluated are K Nearest Neighbor, Support Vector Machine, Gaussian Process, Decision Tree, Random Forest, Multilayer Perceptron, AdaBoost, Gaussian Naive Bayes, and Quadratic Discriminant Analysis. This study has determined that bilateral filtering provides improvement in accuracy with 2.02% more in detection, 0.68% less in non-detection and 1.35% less in false detection. Detection accuracy is at 68.25% for dataset from online sources and an effective accuracy of 75% for local traffic images. Multilayer Perceptron Classifier obtained the highest accuracy (0.9), precision (0.9), recall (0.9) and f1 score (0.91) for traffic sign recognition. 2019-01-01T08:00:00Z text https://archium.ateneo.edu/discs-faculty-pubs/192 https://ieeexplore.ieee.org/abstract/document/8836161?casa_token=bUqymOH9kCgAAAAA:wAS0MjCsBGpZ1FKZLJmWm2gJsv1aqOREazH6GMOBlDOhSFSttE7zrMzSAA4GBvzoh13CtWFwbeI Department of Information Systems & Computer Science Faculty Publications Archīum Ateneo traffic sign detection and recognition bilateral filtering color threholding Hough transform histogram of oriented gradient machine learning multilayer perceptron Computer Sciences |
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traffic sign detection and recognition bilateral filtering color threholding Hough transform histogram of oriented gradient machine learning multilayer perceptron Computer Sciences |
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traffic sign detection and recognition bilateral filtering color threholding Hough transform histogram of oriented gradient machine learning multilayer perceptron Computer Sciences Santos, Adonis Abu, Patricia Angela R Oppus, Carlos Reyes, Rosula SJ Traffic Sign Detection and Recognition for Assistive Driving |
| description |
The technology behind Advanced Driver Assistance Systems has been continuously advancing in recent years. This has been made possible by artificial intelligence and computer vision. In Automatic Traffic Sign Detection and Recognition System, accurate detection and recognition of traffic signs from the complex traffic environment and varying weather and lighting conditions are still a big challenge. This study implements a traffic sign detection and recognition system. Bilateral filtering pre-processing technique is performed before detection phase to improve accuracy. Color thresholding in HSV color space followed by Hough transform are used for a more efficient segmentation of the region of interest. In recognition phase, Histogram of Oriented Gradients is extracted from candidate traffic signs as the key feature in classification. This study also determines which machine learning classifier will provide the best accuracy for traffic sign recognition. The classifiers evaluated are K Nearest Neighbor, Support Vector Machine, Gaussian Process, Decision Tree, Random Forest, Multilayer Perceptron, AdaBoost, Gaussian Naive Bayes, and Quadratic Discriminant Analysis. This study has determined that bilateral filtering provides improvement in accuracy with 2.02% more in detection, 0.68% less in non-detection and 1.35% less in false detection. Detection accuracy is at 68.25% for dataset from online sources and an effective accuracy of 75% for local traffic images. Multilayer Perceptron Classifier obtained the highest accuracy (0.9), precision (0.9), recall (0.9) and f1 score (0.91) for traffic sign recognition. |
| format |
text |
| author |
Santos, Adonis Abu, Patricia Angela R Oppus, Carlos Reyes, Rosula SJ |
| author_facet |
Santos, Adonis Abu, Patricia Angela R Oppus, Carlos Reyes, Rosula SJ |
| author_sort |
Santos, Adonis |
| title |
Traffic Sign Detection and Recognition for Assistive Driving |
| title_short |
Traffic Sign Detection and Recognition for Assistive Driving |
| title_full |
Traffic Sign Detection and Recognition for Assistive Driving |
| title_fullStr |
Traffic Sign Detection and Recognition for Assistive Driving |
| title_full_unstemmed |
Traffic Sign Detection and Recognition for Assistive Driving |
| title_sort |
traffic sign detection and recognition for assistive driving |
| publisher |
Archīum Ateneo |
| publishDate |
2019 |
| url |
https://archium.ateneo.edu/discs-faculty-pubs/192 https://ieeexplore.ieee.org/abstract/document/8836161?casa_token=bUqymOH9kCgAAAAA:wAS0MjCsBGpZ1FKZLJmWm2gJsv1aqOREazH6GMOBlDOhSFSttE7zrMzSAA4GBvzoh13CtWFwbeI |
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