Zhenbo Song scite author profile

Simultaneous Localization and Mapping (SLAM) and Autonomous Driving are becoming increasingly more important in recent years. Point cloud-based large scale place recognition is the spine of them. While many models have been proposed and have achieved acceptable performance by learning short-range local features, they always skip long-range contextual properties. Moreover, the model size also becomes a serious shackle for their wide applications. To overcome these challenges, we propose a super light-weight network model termed SVT-Net. On top of the highly efficient 3D Sparse Convolution (SP-Conv), an Atom-based Sparse Voxel Transformer (ASVT) and a Cluster-based Sparse Voxel Transformer (CSVT) are proposed respectively to learn both short-range local features and long-range contextual features. Consisting of ASVT and CSVT, SVT-Net can achieve state-of-the-art performance in terms of both recognition accuracy and running speed with a super-light model size (0.9M parameters). Meanwhile, for the purpose of further boosting efficiency, we introduce two simplified versions, which also achieve state-of-the-art performance and further reduce the model size to 0.8M and 0.4M respectively.

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Self-Supervised Depth Completion From Direct Visual-LiDAR Odometry in Autonomous Driving

Song

Yao

et al. 2022

IEEE Trans. Intell. Transport. Syst.

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Deep semantic-aware remote sensing image deblurring

et al. 2023

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Zhenbo Song

End-to-end Learning for Inter-Vehicle Distance and Relative Velocity Estimation in ADAS with a Monocular Camera

Deep Novel View Synthesis from Colored 3D Point Clouds

SVT-Net: Super Light-Weight Sparse Voxel Transformer for Large Scale Place Recognition

Self-Supervised Depth Completion From Direct Visual-LiDAR Odometry in Autonomous Driving

Deep semantic-aware remote sensing image deblurring

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