ImmFusion: Robust mmWave-RGB Fusion for 3D Human Body Reconstruction in All Weather Conditions


Anjun Chen1
Xiangyu Wang1
Kun Shi1
Shaohao Zhu1
Bin Fang2

Yingfeng Chen3
Jiming Chen1
Yuchi Huo1
Qi Ye1

1Zhejiang University
2Tsinghua University
3Fuxi AI Lab, NetEase


ICRA 2023

[Paper]
[Code]


Abstract

3D human reconstruction from RGB images achieves decent results in good weather conditions but degrades dramatically in rough weather. Complementary, mmWave radars have been employed to reconstruct 3D human joints and meshes in rough weather. However, combining RGB and mmWave signals for robust all-weather 3D human reconstruction is still an open challenge, given the sparse nature of mmWave and the vulnerability of RGB images. In this paper, we present ImmFusion, the first mmWave-RGB fusion solution to reconstruct 3D human bodies in all weather conditions robustly. Specifically, our ImmFusion consists of image and point backbones for token feature extraction and a Transformer module for token fusion. The image and point backbones refine global and local features from original data, and the Fusion Transformer Module aims for effective information fusion of two modalities by dynamically selecting informative tokens. Extensive experiments on a large-scale dataset, mmBody, captured in various environments demonstrate that ImmFusion can efficiently utilize the information of two modalities to achieve a robust 3D human body reconstruction in all weather conditions. In addition, our method's accuracy is significantly superior to that of state-of-the-art Transformer-based LiDAR-camera fusion methods.


Video



BibTeX

@inproceedings{chen2023immfusion,
  title={Immfusion: Robust mmwave-rgb fusion for 3d human body reconstruction in all weather conditions},
  author={Chen, Anjun and Wang, Xiangyu and Shi, Kun and Zhu, Shaohao and Fang, Bin and Chen, Yingfeng and Chen, 
    Jiming and Huo, Yuchi and Ye, Qi},
  booktitle={2023 IEEE International Conference on Robotics and Automation (ICRA)},
  pages={2752--2758},
  year={2023},
  organization={IEEE}
}

Contact: Anjun Chen, Qi Ye