THE EUROSDR RPAS BENCHMARK: OPEN DATASET DESCRIPTION AND SUMMARY OF KEY RESULTS

Q2 Social Sciences

The International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences Pub Date : 2023-10-19 DOI:10.5194/isprs-archives-xlviii-1-w3-2023-107-2023

J. P. Mills, M. V. Peppa, A. Alma'Amari, L. Davidson, J. Goodyear, N. T. Penna

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引用次数: 0

Abstract

Abstract. In 2021 EuroSDR initiated a benchmark study with the aim to evaluate the geometric quality of real-world survey data generated from state-of-practice commercial Remotely Piloted Aircraft System (RPAS) photogrammetry (including DJI P4 RTK and DJI P1) and lidar (including DJI L1 and Riegl MiniVUX). The particular benchmark focus was on achievable data quality from real-world network configurations in the absence of ground control, on-the-fly Real Time Kinematic (RTK) corrections, and/or local GNSS base station information. Successive custom datasets were released to registered benchmark participants who submitted individual outputs that were independently evaluated against reference surveys. Without the inclusion of any supporting ground information, DJI P4 RTK and DJI P1 RPAS solutions were found to deliver m- and dm-level accuracies, respectively, in both plan and height. RTK solutions were found to provide cm-level precisions and accuracies, with some outliers. The introduction of ground control points resulted in similar planimetric accuracy to the RTK solutions, but with slight improvements in height. In terms of lidar datasets, the Riegl MiniVUX solution, using corrections from a local base station, was found to provide smaller discrepancies than the DJI L1 RTK solution, when independently compared against terrestrial laser scanning surveys. This paper provides various quality statistics and demonstrates multiple ways of assessing the geometric quality of RPAS data. The EuroSDR RPAS benchmark datasets are now openly available online in order to support and facilitate further investigation by the community.

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eursdr rpas基准:开放数据集描述和关键结果摘要

摘要2021年，EuroSDR启动了一项基准研究，旨在评估实际商用遥控飞机系统(RPAS)摄影测量(包括DJI P4 RTK和DJI P1)和激光雷达(包括DJI L1和Riegl MiniVUX)产生的真实世界调查数据的几何质量。该基准测试的重点是在没有地面控制、实时运动学(RTK)校正和/或本地GNSS基站信息的情况下，从实际网络配置中获得的数据质量。连续的自定义数据集发布给已注册的基准参与者，他们提交了单独的产出，并根据参考调查进行独立评估。在不包含任何辅助地面信息的情况下，DJI P4 RTK和DJI P1 RPAS解决方案分别在平面和高度上提供m级和dm级精度。RTK解决方案被发现提供厘米级的精度和准确度，有一些异常值。地面控制点的引入导致了与RTK解决方案相似的平面精度，但在高度上略有改进。就激光雷达数据集而言，Riegl MiniVUX解决方案使用了本地基站的校正，当与地面激光扫描测量独立比较时，发现比DJI L1 RTK解决方案提供的差异更小。本文提供了各种质量统计，并展示了评估RPAS数据几何质量的多种方法。EuroSDR RPAS基准数据集现已在网上公开，以支持和促进社区的进一步调查。

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

The International Archives of the Photogrammetry Remote Sensing and Spatial Information Sciences Social Sciences-Geography, Planning and Development

CiteScore

1.70

自引率

0.00%

发文量

949

审稿时长

16 weeks