Heuristic Weakly Supervised 3D Human Pose Estimation in Novel Contexts without Any 3D Pose Ground Truth
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Monocular 3D human pose estimation from a single RGB image has received a lot attentions in the past few year. Pose inference models with competitive performance however require supervision with 3D pose ground truth data or at least known pose priors in their target domain. Yet, these data requirements in many real-world applications with data collection constraints may not be achievable. In this paper, we present a heuristic weakly supervised solution, called HW-HuP to estimate 3D human pose in contexts that no ground truth 3D data is accessible, even for fine-tuning. HW-HuP learns partial pose priors from public 3D human pose datasets and uses easy-to-access observations from the target domain to iteratively estimate 3D human pose and shape in an optimization and regression hybrid cycle. In our design, depth data as an auxiliary information is employed as weak supervision during training, yet it is not needed for the inference. We evaluate HW-HuP performance qualitatively on datasets of both in-bed human and infant poses, where no ground truth 3D pose is provided neither any target prior. We also test HW-HuP performance quantitatively on a publicly available motion capture dataset against the 3D ground truth. HW-HuP is also able to be extended to other input modalities for pose estimation tasks especially under adverse vision conditions, such as occlusion or full darkness. On the Human3.6M benchmark, HW-HuP shows 104.1mm in MPJPE and 50.4mm in PA MPJPE, comparable to the existing state-of-the-art approaches that benefit from full 3D pose supervision.
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