基于全球位势模型和人工智能算法的崎岖地形区域大地水准面建模优化新方法

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-19 DOI:10.1016/j.ejrs.2024.09.002
Mohamed A. Elshewy , Phung Trung Thanh , Amr M. Elsheshtawy , Mervat Refaat , Mohamed Freeshah
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引用次数: 0

摘要

精确的大地水准面建模对大地测量、地质和环境科学意义重大。由于建立基准站面临挑战,特别是在越南北部等崎岖地形,利用全球位势模型(GGMs)势在必行。在此,我们提出了一种将全球位势模型与先进的人工智能(AI)算法相结合的高级方法,以提高区域大地水准面模型的精度和空间分辨率。我们系统地评估了六个当代大地水准面(XGM2019e_2159、SGG-UGM-2、SGG-UGM-1、GECO、EIGEN-6C4 和 EGM2008),以确定代表越南北部地球重力场的最佳大地水准面。随后,实施了复杂的人工智能算法,包括基于树的集合、支持向量机、高斯线性回归、回归树和线性回归模型。这些人工智能算法根据全球导航卫星系统(GNSS)的综合水准测量数据和相应的高度异常进行训练,以捕捉位势场中的复杂关系。在所研究的六个 GGM 中,XGM2019e_2159 在越南北部显示出最佳性能,其标准偏差为 ±0.17 m。然而,指数核高斯过程回归模型显示出边际优势,其标准偏差约为 0.07 米。因此,选择该模型来构建大地水准面模型,通过将地面数据与最佳 GGMs 集成,该模型显示出卓越的性能,尤其是在具有挑战性的地形和地球物理条件下,从而有助于显著提高实现的空间分辨率。
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A novel approach for optimizing regional geoid modeling over rugged terrains based on global geopotential models and artificial intelligence algorithms

Accurate geoid modeling is significant in geodetic, geological, and environmental sciences. Owing to challenges in establishing reference stations, particularly in rugged terrains, such as in Northern Vietnam, leveraging global geopotential models (GGMs) is imperative. Herein, we proposed a superior method that integrates GGMs with advanced artificial intelligence (AI) algorithms to enhance the accuracy and spatial resolution of regional geoid models. A total of six contemporary GGMs (XGM2019e_2159, SGG-UGM-2, SGG-UGM-1, GECO, EIGEN-6C4, and EGM2008) were systematically evaluated to identify the optimal GGM that represents the Earth’s gravitational field in Northern Vietnam. Subsequently, sophisticated AI algorithms, including tree-based ensembles, support vector machines, Gaussian linear regression, regression trees, and linear regression models, were implemented. These AI algorithms were trained on the integrated global navigation satellite system (GNSS) leveling data and corresponding height anomalies to capture complex relationships in the geopotential field. Among the six investigated GGMs, XGM2019e_2159 shows optimal performance for Northern Vietnam, displaying a standard deviation of ±0.17 m. Rigorous assessment results from cross-validation and validation against independent datasets demonstrate satisfactory accuracy across all considered models. However, the Gaussian process regression model with an exponential kernel exhibits marginal superiority, boasting a standard deviation of approximately 0.07 m. This model is therefore chosen for the construction of the geoid model by integrating ground data with optimal GGMs, which shows superior performance, particularly in challenging topographic and geophysical conditions, thereby contributing to a marked improvement in the realized spatial resolution.

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4.30%
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567
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