The query mechanism introduced in the DETR method is changing the paradigm of object detection and recently there are many query-based methods have obtained strong object detection performance. However, the current query-based detection pipelines suffer from the following two issues. Firstly, multi-stage decoders are required to optimize the randomly initialized object queries, incurring a large computation burden. Secondly, the queries are fixed after training, leading to unsatisfying generalization capability. To remedy the above issues, we present featurized object queries predicted by a query generation network in the well-established Faster R-CNN framework and develop a Featurized Query R-CNN. Extensive experiments on the COCO dataset show that our Featurized Query R-CNN obtains the best speed-accuracy trade-off among all R-CNN detectors, including the recent state-of-the-art Sparse R-CNN detector. The code is available at \url{https://github.com/hustvl/Featurized-QueryRCNN}.
翻译:DETR方法中引入的查询机制正在改变物体探测模式,而且最近有许多基于查询的方法获得了很强的物体探测性能,然而,目前基于查询的探测管道存在以下两个问题:第一,需要多阶段解码器优化随机初始物体查询,从而产生巨大的计算负担;第二,在培训后确定查询,导致不满意的概括性能力;为了纠正上述问题,我们介绍了在已经建立起来的更快R-CNN框架内由查询生成网络预测的自成一体的物体查询,并开发了Featurized Query R-CNN。 CO数据集的广泛实验显示,我们的Featurized Query R-CNN在所有R-CNN探测器之间获得最佳速度-准确性交换,包括最近的State-the-Arse R-CNN探测器。该代码可在\url{https://github.com/hustvl/Featurized-QueryRCNNN}查询。
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