FYCFNet:基于多模型融合的车辆行人检测网络

Vision Pub Date : 2022-05-20 DOI:10.1109/cvidliccea56201.2022.9825072

Pnegyu Dai

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引用次数: 0

摘要

自动驾驶中基于视觉的目标检测解决方案非常注重检测的准确性。正确或错误的检测可能导致或避免交通事故。因此，为了进一步提高视觉方案的检测精度，本文提出了一种多模型融合网络:YoloV5和CBNEet Faster-RCNN融合网络(FYCFNet)，它融合了一种单阶段目标检测模型和两阶段模型，由三部分组成:第一部分是单阶段YoloV5[1]检测模型，第二部分是以CBNet-V2[3]为骨架的Faster-RCNN[2]，第三部分是加权盒融合的融合后头部。我们测试了该网络的性能，并将其与其他主流网络进行了比较，并验证了该网络实现了非常令人印象深刻的准确性提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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FYCFNet: Vehicle and Pedestrian Detection Network based on Multi-model Fusion

Vision-based solutions for target detection in autonomous driving are very much about the accuracy of detection. A correct or incorrect detection may cause or avoid a traffic accident. Therefore, in this paper, to further improve the detection accuracy of vision schemes, we propose a multi-model fusion network: Fusion Network with YoloV5 and CBNEet Faster-RCNN (FYCFNet) that fuses a one-stage target detection model and a two-stage model, which consists of three parts: the first part is a single-stage YOLOV5 [1] detection model, the second part is a Faster-RCNN [2] with CBNet-V2 [3] as the backbone, and the third part is the post-fusion head of weighted boxes fusion. We tested the performance of this network and compared it with other mainstream networks, and verified that the network achieves a very impressive accuracy improvement.

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