Integrating monocular vision and laser point for indoor UAV SLAM

2014 Ubiquitous Positioning Indoor Navigation and Location Based Service (UPINLBS) Pub Date : 2014-11-01 DOI:10.1109/UPINLBS.2014.7033725

Qing-hua Zeng, Yushu Wang, Jianye Liu, Ruizhi Chen, Xiaoyi Deng

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引用次数: 10

Abstract

In order to realize the autonomous navigation of an unmanned aerial vehicle while exploring unknown indoor environments and meet the requirements of the indoor UAV positioning and indoor environmental reconstruction, a new strategy is presented based on monocular vision and a laser source. Combining laser-assisted odometry and a scan correlation algorithm with inertial information through an Extended Kaiman Filter (EKF) to realize the purpose localization and mapping. The laser-assisted distance measurement is presented in our paper depends on visual and geometric principle, which has the same effect of laser range finder after error corrections. The pose estimates can be obtained by laser scan matching which is used Sum of Gaussian (SoG) as the essential elements of mapping and localization. At last, in order to improve the autonomy of navigation, EKF is used to fuse inertial information. Experiments in an indoor environment validate the significant engineering reference value of the proposed algorithm.

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室内无人机SLAM单目视觉与激光点集成

为了实现无人机在探索未知室内环境时的自主导航，满足室内无人机定位和室内环境重建的要求，提出了一种基于单目视觉和激光源的新策略。结合激光辅助里程计和扫描相关算法，通过扩展开曼滤波(EKF)实现惯性信息，实现目标定位和映射。本文提出了一种基于视觉和几何原理的激光辅助测距方法，该方法在误差修正后具有与激光测距仪相同的效果。利用高斯和(SoG)作为映射和定位的基本要素，通过激光扫描匹配得到姿态估计。最后，为了提高导航的自主性，利用EKF融合惯性信息。室内环境实验验证了该算法具有重要的工程参考价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2014 Ubiquitous Positioning Indoor Navigation and Location Based Service (UPINLBS)

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