基于激光雷达的便携式撞击系统的设计与评估

Q2 Social Sciences
P. Trybała, P. Kujawa, K. Romańczukiewicz, A. Szrek, F. Remondino
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引用次数: 0

摘要

摘要移动地图技术(MMT)在过去几十年中发展迅速,特别是在使用低成本传感器方面。这一进展主要归功于创新的同步定位和地图绘制(SLAM)算法的出现。本文着重于评估一种新的基于lidar的便携式SLAM系统在动态现实环境中的映射效率。该工作提出了一种基于Livox Avia激光雷达传感器的技术解决方案,该传感器通过框架稳定增强。该系统名为便携式Livox-based Mapping system (PoLiMap),通过从各种环境(包括城市景观、地下隧道和森林地区)获取数据,并使用改进的fast - livox - slam算法对数据进行处理,与其他类似解决方案进行了比较。本文中介绍的研究有助于理解PoLiMap系统在各种条件下的功能,并对其潜在应用提供了重要的见解。精度评估结果证明,所提出的MMT系统可以成功应对各种苛刻的环境,并挑战其他更昂贵的最先进的便携式移动激光扫描方法的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DESIGNING AND EVALUATING A PORTABLE LIDAR-BASED SLAM SYSTEM
Abstract. Mobile Mapping Technology (MMT) has evolved rapidly over the past few decades, especially in using low-cost sensors. This progress is primarily attributed to the appearance of innovative simultaneous localization and mapping (SLAM) algorithms. This article focuses on evaluating the efficiency of a new LiDAR-based portable SLAM system for mapping in dynamic real-world environments. The work proposed a technical solution based on a Livox Avia LiDAR sensor enhanced by gimbal stabilization. The system, named Portable Livox-based Mapping system (PoLiMap), is compared to other similar solutions by acquiring data from various environments, including urban sceneries, underground tunnels and forested areas, and processing them using a modified FAST-LIO-SLAM algorithm. The research presented in the article contributes to the understanding of the capabilities of PoLiMap systems under various conditions and offers significant insight into its potential applications. Accuracy evaluation results prove that the proposed MMT system can successfully tackle various demanding environments and challenge the results of other more costly state-of-the-art portable mobile laser scanning methods.
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
949
审稿时长
16 weeks
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