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Neural-Network-Based Traffic Sign Detection and Recognition in High-Definition Images Using Region Focusing and Parallelization

Aleksej Avramović, Davor Sluga, Domen Tabernik, Danijel Skočaj, Vladan Stojnić, Nejc Ilc

2020IEEE Access64 citationsDOIOpen Access PDF

Abstract

Recent trends in the development of autonomous vehicles focus on real-time processing of vast amounts of data from various sensors. The data can be acquired using multiple cameras, lidars, ultrasonic sensors, and radars to collect useful information about the state of the traffic and the surroundings. Significant computational power is required to process the data fast enough, and this is even more pronounced in vehicles that not only assist the driver but are capable of fully autonomous driving. This article proposes speed and accuracy improvement of traffic sign detection and recognition in high-definition images, based on focusing on different regions of interest in traffic images. These regions are determined with efficient and parallelized preprocessing of every traffic image, after which convolutional neural network is applied for detection and recognition in parallel on graphics processing units. We employed different “You Only Look Once” (YOLO) architectures as baseline detectors, due to their speed, straightforward architecture, and high accuracy in general object detection tasks. Several preprocessing procedures were proposed, to achieve real-time performance requirement. Our experiments using a large-scale traffic sign dataset show that we can achieve real-time detection in high-definition images with high recognition accuracy.

Topics & Concepts

Computer scienceTraffic signTraffic sign recognitionArtificial neural networkArtificial intelligenceSign (mathematics)Pattern recognition (psychology)Computer visionMathematical analysisMathematicsAdvanced Neural Network ApplicationsVehicle License Plate RecognitionImage and Object Detection Techniques
Neural-Network-Based Traffic Sign Detection and Recognition in High-Definition Images Using Region Focusing and Parallelization | Litcius