Expandable-RCNN: toward high-efficiency incremental few-shot object detection

Yiting Li, Sichao Tian, Haiyue Zhu, Yeying Jin, Keqing Wang, Jun Ma, Cheng Xiang, P. Vadakkepat
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Abstract

This study aims at addressing the challenging incremental few-shot object detection (iFSOD) problem toward online adaptive detection. iFSOD targets to learn novel categories in a sequential manner, and eventually, the detection is performed on all learned categories. Moreover, only a few training samples are available for all sequential novel classes in these situations. In this study, we propose an efficient yet suitably simple framework, Expandable-RCNN, as a solution for the iFSOD problem, which allows online sequentially adding new classes with zero retraining of the base network. We achieve this by adapting the Faster R-CNN to the few-shot learning scenario with two elegant components to effectively address the overfitting and category bias. First, an IOU-aware weight imprinting strategy is proposed to directly determine the classifier weights for incremental novel classes and the background class, which is with zero training to avoid the notorious overfitting issue in few-shot learning. Second, since the above zero-retraining imprinting approach may lead to undesired category bias in the classifier, we develop a bias correction module for iFSOD, named the group soft-max layer (GSL), that efficiently calibrates the biased prediction of the imprinted classifier to organically improve classification performance for the few-shot classes, preventing catastrophic forgetting. Extensive experiments on MS-COCO show that our method can significantly outperform the state-of-the-art method ONCE by 5.9 points in commonly encountered few-shot classes.
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可扩展的 RCNN:实现高效的增量少量物体检测
iFSOD 的目标是以顺序方式学习新类别,并最终对所有学习到的类别进行检测。此外,在这种情况下,所有连续的新类别只有少量训练样本可用。在本研究中,我们提出了一个高效而又适当简单的框架--可扩展 RCNN,作为 iFSOD 问题的解决方案,它允许在线连续添加新类别,而无需重新训练基础网络。为了实现这一目标,我们将 Faster R-CNN 适应于少量学习场景,并加入了两个优雅的组件,以有效解决过拟合和类别偏差问题。首先,我们提出了一种 IOU 感知权重印记策略,用于直接确定增量新类别和背景类别的分类器权重,这种策略采用零训练,从而避免了少次学习中臭名昭著的过拟合问题。其次,由于上述零重训印记方法可能会导致分类器出现不希望出现的类别偏差,因此我们为 iFSOD 开发了一个偏差校正模块,命名为群软最大层(GSL),它能有效校正印记分类器的偏差预测,从而有机地提高对少数类别的分类性能,防止灾难性遗忘。在 MS-COCO 上进行的大量实验表明,我们的方法在常见的少拍类别中比最先进的 ONCE 方法高出 5.9 分。
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