Resumen
Running posture estimation is a specialized task in human pose estimation that has received relatively little research attention due to the lack of appropriate datasets. To address this issue, this paper presents the construction of a new benchmark dataset called ?Running Human?, which was specifically designed for running sports. This dataset contains over 1000 images along with comprehensive annotations for 1288 instances of running humans, including bounding boxes and keypoint annotations on the human body. Additionally, a Receptive Field Spatial Pooling (RFSP) module was developed to tackle the challenge of joint occlusion, which is common in running sports images. This module was incorporated into the High-Resolution Network (HRNet) model, resulting in a novel network model named the Running Human Posture Network (RHPNet). By expanding the receptive field and effectively utilizing multi-scale features extracted from the multi-branch network, the RHPNet model significantly enhances the accuracy of running posture estimation. On the Running Human dataset, the proposed method achieved state-of-the-art performance. Furthermore, experiments were conducted on two benchmark datasets. Compared to the state-of-the-art ViTPose-L method, when applied to the COCO dataset, RHPNet demonstrated comparable prediction accuracy while utilizing only one tenth of the parameters and one eighth of the floating-point operations (FLOPs). On the MPII dataset, RHPNet achieves a PCKh@0.5 score of 92.0, which is only 0.5 points lower than the state-of-the-art method, PCT. These experimental results provide strong validation for the effectiveness and excellent generalization ability of the proposed method.