EfficientHRNet: Efficient Scaling for Lightweight High-Resolution Multi-Person Pose Estimation
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Recent years have brought great advancement in 2D human pose estimation. However, bottom-up approaches that do not rely on external detectors to generate person crops, tend to have large model sizes and intense computational requirements, making them ill-suited for applications where large computation costs can be prohibitive. Lightweight approaches are exceedingly rare and often come at the price of massive accuracy loss. In this paper, we present EfficientHRNet, a family of lightweight 2D human pose estimators that unifies the high-resolution structure of state-of-the-art HigherHRNet with the highly efficient model scaling principles of EfficientNet to create high accuracy models with significantly reduced computation costs compared to other state-of-the-art approaches. In addition, we provide a formulation for jointly scaling our backbone EfficientNet below the baseline B0 and the rest of EfficientHRNet with it. Ultimately, we are able to create a family of highly accurate and efficient 2D human pose estimators that is flexible enough to provide a lightweight solution for a variety of application and device requirements. Baseline EfficientHRNet achieves a 0.4 compared to HRNet while having a 34 When compared to Lightweight OpenPose, a compressed network designed specifically for lightweight inference, one EfficientHRNet model outperforms it by over 10 model, while only having 2 to further reduce computational complexity by 63 EfficientHRNet proves to be more computationally efficient than other bottom-up 2D human pose estimation approaches, while achieving highly competitive accuracy.
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