Nature Communications (Mar 2024)

Fast Human Motion reconstruction from sparse inertial measurement units considering the human shape

  • Xuan Xiao,
  • Jianjian Wang,
  • Pingfa Feng,
  • Ao Gong,
  • Xiangyu Zhang,
  • Jianfu Zhang

DOI
https://doi.org/10.1038/s41467-024-46662-5
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Inertial Measurement Unit-based methods have great potential in capturing motion in large-scale and complex environments with many people. Sparse Inertial Measurement Unit-based methods have more research value due to their simplicity and flexibility. However, improving the computational efficiency and reducing latency in such methods are challenging. In this paper, we propose Fast Inertial Poser, which is a full body motion estimation deep neural network based on 6 inertial measurement units considering body parameters. We design a network architecture based on recurrent neural networks according to the kinematics tree. This method introduces human body shape information by the causality of observations and eliminates the dependence on future frames. During the estimation of joint positions, the upper body and lower body are estimated using separate network modules independently. Then the joint rotation is obtained through a well-designed single-frame kinematics inverse solver. Experiments show that the method can greatly improve the inference speed and reduce the latency while ensuring the reconstruction accuracy compared with previous methods. Fast Inertial Poser runs at 65 fps with 15 ms latency on an embedded computer, demonstrating the efficiency of the model.