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Research on Multiscene Vehicle Dataset Based on Improved FCOS Detection Algorithms

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  • Fei Yan
  • Hui Zhang
  • Tianyang Zhou
  • Zhiyong Fan
  • Jia Liu
  • Cheng Lu

Abstract

Whether in intelligent transportation or autonomous driving, vehicle detection is an important part. Vehicle detection still faces many problems, such as inaccurate vehicle detection positioning and low detection accuracy in complex scenes. FCOS as a representative of anchor-free detection algorithms was once a sensation, but now it seems to be slightly insufficient. Based on this situation, we propose an improved FCOS algorithm. The improvements are as follows: (1) we introduce a deformable convolution into the backbone to solve the problem that the receptive field cannot cover the overall goal; (2) we add a bottom-up information path after the FPN of the neck module to reduce the loss of information in the propagation process; (3) we introduce the balance module according to the balance principle, which reduces inconsistent detection of the bbox head caused by the mismatch of variance of different feature maps. To enhance the comparative experiment, we have extracted some of the most recent datasets from UA-DETRAC, COCO, and Pascal VOC. The experimental results show that our method has achieved good results on its dataset.

Suggested Citation

  • Fei Yan & Hui Zhang & Tianyang Zhou & Zhiyong Fan & Jia Liu & Cheng Lu, 2021. "Research on Multiscene Vehicle Dataset Based on Improved FCOS Detection Algorithms," Complexity, Hindawi, vol. 2021, pages 1-10, November.
  • Handle: RePEc:hin:complx:9167116
    DOI: 10.1155/2021/9167116
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