Verification and regression are two general methodologies for prediction in neural networks. Each has its own strengths: verification can be easier to infer accurately, and regression is more efficient and applicable to continuous target variables. Hence, it is often beneficial to carefully combine them to take advantage of their benefits. In this paper, we take this philosophy to improve state-of-the-art object detection, specifically by RepPoints. Though RepPoints provides high performance, we find that its heavy reliance on regression for object localization leaves room for improvement. We introduce verification tasks into the localization prediction of RepPoints, producing RepPoints v2, which provides consistent improvements of about 2.0 mAP over the original RepPoints on the COCO object detection benchmark using different backbones and training methods. RepPoints v2 also achieves 52.1 mAP on COCO \texttt{test-dev} by a single model. Moreover, we show that the proposed approach can more generally elevate other object detection frameworks as well as applications such as instance segmentation. The code is available at https://github.com/Scalsol/RepPointsV2.
翻译:在神经网络中,核查和回归是预测神经网络的两种一般方法。每个系统都有其本身的优势:核查可以比较容易地准确推断,而回归则比较有效,并适用于连续的目标变量。因此,仔细地结合它们以利用它们的好处往往是有益的。在本文中,我们采用这一理念来改进最先进的物体探测,特别是Reppoints。虽然Reppoints提供了很高的性能,但我们发现,在物体本地化方面,它严重依赖回归,因此仍有改进的余地。我们在Reppoints(Reppoints)的本地化预测中引入了核查任务,产生了Reppoints v2, 利用不同的骨干和培训方法,对CO物体探测基准的原始Reppoints提供了约2.0 mAP的一致改进。Reppoints v2 也通过单一模型在CO \ textt{test-dev}上实现了52.1 mAP。此外,我们显示,拟议的方法可以更广泛地提升其他物体探测框架以及实例分割等应用。代码可在https://github.com/scalsool/Repol/RepgenesV2上查阅。
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