YOLO-MS: Rethinking Multi-Scale Representation Learning for Real-Time Object Detection

IF 18.6

IEEE transactions on pattern analysis and machine intelligence Pub Date : 2025-02-04 DOI:10.1109/TPAMI.2025.3538473

Yuming Chen;Xinbin Yuan;Jiabao Wang;Ruiqi Wu;Xiang Li;Qibin Hou;Ming-Ming Cheng

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Abstract

We aim at providing the object detection community with an efficient and performant object detector, termed YOLO-MS. The core design is based on a series of investigations on how multi-branch features of the basic block and convolutions with different kernel sizes affect the detection performance of objects at different scales. The outcome is a new strategy that can significantly enhance multi-scale feature representations of real-time object detectors. To verify the effectiveness of our work, we train our YOLO-MS on the MS COCO dataset from scratch without relying on any other large-scale datasets, like ImageNet or pre-trained weights. Without bells and whistles, our YOLO-MS outperforms the recent state-of-the-art real-time object detectors, including YOLO-v7, RTMDet, and YOLO-v8. Taking the XS version of YOLO-MS as an example, it can achieve an AP score of 42+% on MS COCO, which is about 2% higher than RTMDet with the same model size. Furthermore, our work can also serve as a plug-and-play module for other YOLO models. Typically, our method significantly advances the APs, APl, and AP of YOLOv8-N from 18%+, 52%+, and 37%+ to 20%+, 55%+, and 40%+, respectively, with even fewer parameters and MACs.

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YOLO-MS：重新思考实时目标检测中的多尺度表示学习

我们的目标是为目标检测社区提供一个高效和高性能的目标检测器，称为YOLO-MS。核心设计是基于对不同核大小的基本块和卷积的多分支特征对不同尺度下目标检测性能的影响的一系列研究。结果是一种新的策略，可以显著增强实时目标检测器的多尺度特征表示。为了验证我们工作的有效性，我们在MS COCO数据集上从头开始训练YOLO-MS，而不依赖于任何其他大规模数据集，如ImageNet或预训练的权重。没有铃铛和口哨，我们的YOLO-MS优于最近最先进的实时目标探测器，包括YOLO-v7， RTMDet和YOLO-v8。以XS版本的YOLO-MS为例，它在MS COCO上的AP得分为42+%，比相同模型大小的RTMDet高出约2%。此外，我们的工作也可以作为其他YOLO模型的即插即用模块。通常，我们的方法显著提高了YOLOv8-N的AP、APl和AP，分别从18%+、52%+和37%+提高到20%+、55%+和40%+，参数和mac更少。

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IEEE transactions on pattern analysis and machine intelligence

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