Litcius/Paper detail

An Improved Approach for Real-Time Taillight Intention Detection by Intelligent Vehicles

Bingming Tong, Wei Chen, Changzhen Li, Luyao Du, Zhihao Xiao, Donghua Zhang

2022Machines16 citationsDOIOpen Access PDF

Abstract

Vehicle taillight intention detection is an important application for perception and decision making by intelligent vehicles. However, effectively improving detection precision with sufficient real-time performance is a critical issue in practical applications. In this study, a vision-based improved lightweight approach focusing on small object detection with a multi-scale strategy is proposed to achieve application-oriented real-time vehicle taillight intention detection. The proposed real-time detection model is designed based on YOLOv4-tiny, and a spatial pyramid pooling fast (SPPF) module is employed to enrich the output layer features. An additional detection scale is added to expand the receptive field corresponding to small objects. Meanwhile, a path aggregation network (PANet) is used to improve the feature resolution of small objects by constructing a feature pyramid with connections between feature layers. An expanded dataset based on the BDD100K dataset is established to verify the performance of the proposed method. Experimental results on the expanded dataset reveal that the proposed method can increase the average precision (AP) of vehicle, brake, left-turn, and right-turn signals by 1.81, 15.16, 40.04, and 41.53%, respectively. The mean average precision (mAP) can be improved by 24.63% (from 62.20% to 86.83%) at over 70 frames per second (FPS), proving that the proposed method can effectively improve detection precision with good real-time performance.

Topics & Concepts

Computer sciencePyramid (geometry)Object detectionFeature (linguistics)Artificial intelligencePoolingBrakeComputer visionPattern recognition (psychology)Real-time computingEngineeringMathematicsMechanical engineeringPhilosophyGeometryLinguisticsAdvanced Neural Network ApplicationsAutonomous Vehicle Technology and SafetyVideo Surveillance and Tracking Methods