High-speed 3D Vision Perception System Incorporating Binocular and ToF Fusion

姜宇扬; 黄开基; 潘前锋; 杨华; 尹周平

doi:10.13433/j.cnki.1003-8728.20230293

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High-speed 3D Vision Perception System Incorporating Binocular and ToF Fusion

更新时间：2026-04-23

- High-speed 3D Vision Perception System Incorporating Binocular and ToF Fusion
- Mechanical Science and Technology for Aerospace Engineering Vol. 44, Issue 8, Pages: 1408-1417(2025)
- 作者机构：
  
  华中科技大学机械科学与工程学院数字制造装备与技术国家重点实验室机构,武汉,430074
- 作者简介：
- 基金信息：
- DOI：10.13433/j.cnki.1003-8728.20230293
  CLC：
- Published：2025
- 稿件说明：
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姜宇扬, 黄开基, 潘前锋, et al. High-speed 3D Vision Perception System Incorporating Binocular and ToF Fusion[J]. Mechanical Science and Technology for Aerospace Engineering, 2025, 44(8): 1408-1417.
DOI：

姜宇扬, 黄开基, 潘前锋, et al. High-speed 3D Vision Perception System Incorporating Binocular and ToF Fusion[J]. Mechanical Science and Technology for Aerospace Engineering, 2025, 44(8): 1408-1417. DOI： 10.13433/j.cnki.1003-8728.20230293.

摘要

通过三维视觉感知系统获取高质量彩色图像与三维点云信息是移动机器人等应用的关键，针对现有三维视觉感知系统难以同时满足实时性、高精度、高鲁棒的需求，设计并实现了双目与ToF融合的高速三维视觉感知系统。系统主要由相机板、FPGA板、GPU板与ToF板组成，通过FPGA板实现高速图像采集及预处理，以及提出并实现适应FPGA的Fast-SGM算法来获得高速双目立体匹配深度图；利用GPU采集ToF深度图并基于置信度对双目立体匹配深度图与ToF深度图进行融合，以解决双目立体匹配在弱光照、弱纹理情况下失效与ToF在强光照、远距离情况下失效的问题，进一步提高测量精度与鲁棒性。系统通过FPGA与GPU的并行加速特点对数据处理进行加速，能够输出分辨率为1 024 pixels×1 024 pixels、帧率为120 fps的双路RGB图像与立体匹配深度图像，同时能够输出分辨率为1 024 pixels×1 024 pixels、帧率为60 fps的融合深度图像，能够满足移动机器人等实时应用对环境深度估计的需求。

Abstract

Obtaining high-quality color images and 3D point cloud information through a 3D visual perception system is the key to applications such as mobile robots. Since the existing 3D visual perception system is difficult to meet the requirements of real-time

high precision and high robustness at the same time

a binocular high-speed 3D visual perception system integrated with ToF(Time of Flight) is designed and realizedin this paper. The system is mainly composed of camera board

FPGA board

GPU board and ToF board. High-speed image acquisition and preprocessing are realized through FPGA board

and Fast-SGM algorithm adapted to FPGA is proposed to obtain high-speed binocular stereo matching depth map. Collect the ToF depth map and fuse the binocular stereo matching depth map with the ToF depth map based on the confidence

so as to solve the problem that the binocular stereo matching fails in the case of weak light and weak texture and the ToF fails in the case of strong light and long distance

to further improve the measurement accuracy and robustness. The system accelerates data processing through the parallel acceleration characteristics of FPGA and GPU

and can output dual-channel RGB images and stereo matching depth images with a resolution of 1 024 pixels×1 024 pixels and a frame rate of 120 fps

and can output a resolution of 1 024 pixels× 1 024 pixels

fused depth images with a frame rate of 60 fps

which can meet the needs of real-time applications such as mobile robots for environmental depth estimation.

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