Residual objectness for imbalance reduction

Highlights：

• We discover that the foreground-background imbalance in object detection could be addressed in a learning-based manner, without any hard-crafted resampling and reweighting schemes.

• We propose a novel Residual Objectness (ResObj) mechanism to address the foreground-background imbalance in training object detectors. With a cascade architecture to gradually refine the objectness estimation, our ResObj module could address the imbalance in an endto- end way, thus avoiding laborious hyper-parameters tuning required by resampling and reweighting schemes.

• We validate the proposed method on the COCO dataset with thorough ablation studies. For various detectors, our Residual Objectness steadily improves relative detection accuracy.

摘要

•We discover that the foreground-background imbalance in object detection could be addressed in a learning-based manner, without any hard-crafted resampling and reweighting schemes.•We propose a novel Residual Objectness (ResObj) mechanism to address the foreground-background imbalance in training object detectors. With a cascade architecture to gradually refine the objectness estimation, our ResObj module could address the imbalance in an endto- end way, thus avoiding laborious hyper-parameters tuning required by resampling and reweighting schemes.•We validate the proposed method on the COCO dataset with thorough ablation studies. For various detectors, our Residual Objectness steadily improves relative detection accuracy.

论文评审过程：Received 25 August 2019, Revised 1 May 2022, Accepted 7 May 2022, Available online 10 May 2022, Version of Record 16 May 2022.