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沿无人机路径进行测量以实现最佳水平精度稀释和几何精度稀释。

Measurement Along the Path of Unmanned Aerial Vehicles for Best Horizontal Dilution of Precision and Geometric Dilution of Precision.

作者信息

Ding Yanwu, Shen Dan, Pham Khanh, Chen Genshe

机构信息

Department of Electrical and Computer Engineering, Wichita State University, Wichita, KS 67260, USA.

Intelligent Fusion Technology, Germantown, MD 20874, USA.

出版信息

Sensors (Basel). 2025 Jun 23;25(13):3901. doi: 10.3390/s25133901.

DOI:10.3390/s25133901
PMID:40648158
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12251746/
Abstract

In the zenith-horizon placement for achieving minimum geometric dilution of precision (GDOP), one access node or sensor is positioned along the z-axis, while the remaining nodes are placed symmetrically on a three-dimensional (3D) cone. This configuration yields the minimum GDOP at the cone's tip, which we term the designated min-GDOP point. However, in practical localization applications, the unknown node is not necessarily located at this designated min-GDOP point; instead, it may be situated anywhere within an area. As a result, evaluating localization accuracy across the entire area, rather than at a single point, is more relevant. Averaged horizontal dilution of precision (HDOP) and GDOP across the region provide more meaningful metrics for system-wide performance than values computed only at a specific location. Although many recent positioning applications leverage multiple unmanned aerial vehicles (UAVs), many established fixed sensor deployments predate the widespread adoption of UAVs. This paper proposes a novel approach with a single UAV working in conjunction with existing fixed access nodes for positioning. This approach offers improved adaptability for fixed infrastructure while circumventing the expense of establishing entirely new UAV systems, thus providing a valuable compromise. We investigate the criteria of average HDOP and GDOP over the given area. The objective is to determine optimal UAV positions along the flight path that minimize the average HDOP and/or GDOP across the area. Due to the analytical complexity, we employ numerical methods. Our simulation results demonstrate that minimizing average HDOP and GDOP often requires different UAV positions, depending on the number of access nodes and the size of the area. Consequently, achieving simultaneous minimization of both metrics with a single UAV trajectory is generally infeasible. When minimizing the average HDOP with a small number of access nodes, aligning the UAV's XY-plane angle with those of the stationary nodes, offset by 60∘, proves advantageous. This angular alignment becomes less critical as the number of access nodes increases. For scenarios where both HDOP and GDOP are important, UAV placement can be optimized by selecting appropriate trade-offs. Additionally, we quantify how increasing the number of access nodes improves the average HDOP and GDOP over the specified area.

摘要

在天顶-地平线布局中,为实现最小几何精度稀释(GDOP),一个接入节点或传感器沿z轴放置,而其余节点对称放置在一个三维(3D)圆锥体上。这种配置在圆锥体的尖端产生最小GDOP,我们将该点称为指定的最小GDOP点。然而,在实际定位应用中,未知节点不一定位于这个指定的最小GDOP点;相反,它可能位于一个区域内的任何位置。因此,评估整个区域的定位精度,而不是单个点的定位精度,更具相关性。与仅在特定位置计算的值相比,该区域的平均水平精度稀释(HDOP)和GDOP为系统整体性能提供了更有意义的指标。尽管最近许多定位应用利用了多架无人机(UAV),但许多已建立的固定传感器部署在无人机广泛应用之前就已存在。本文提出了一种新颖的方法,即让一架无人机与现有的固定接入节点协同工作进行定位。这种方法提高了对固定基础设施的适应性,同时避免了建立全新无人机系统的成本,从而提供了一种有价值的折衷方案。我们研究了给定区域内平均HDOP和GDOP的标准。目标是确定沿飞行路径的最佳无人机位置,以最小化该区域的平均HDOP和/或GDOP。由于分析的复杂性,我们采用数值方法。我们的仿真结果表明,最小化平均HDOP和GDOP通常需要不同的无人机位置,这取决于接入节点的数量和区域的大小。因此,通过单一无人机轨迹同时最小化这两个指标通常是不可行的。当使用少量接入节点最小化平均HDOP时,将无人机的XY平面角度与静止节点的角度对齐,偏移60°,证明是有利的。随着接入节点数量的增加,这种角度对齐的重要性降低。对于HDOP和GDOP都很重要的场景,可以通过选择适当的权衡来优化无人机的放置。此外,我们量化了增加接入节点数量如何改善指定区域内的平均HDOP和GDOP。

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本文引用的文献

1
HDOP and VDOP Analysis in an Ideal Placement Environment for Dual GNSSs.在双 GNSS 理想放置环境中进行 HDOP 和 VDOP 分析。
Sensors (Basel). 2022 May 3;22(9):3475. doi: 10.3390/s22093475.
2
Weighted geometric dilution of precision calculations with matrix multiplication.使用矩阵乘法进行加权几何精度稀释计算。
Sensors (Basel). 2015 Jan 5;15(1):803-17. doi: 10.3390/s150100803.
3
Optimal configuration of redundant inertial sensors for navigation and FDI performance.冗余惯性传感器在导航和故障诊断中的最优配置。
Sensors (Basel). 2010;10(7):6497-512. doi: 10.3390/s100706497. Epub 2010 Jul 2.