An Assessment of the GOCE High-Level Processing Facility (HPF) Released Global Geopotential Models with Regional Test Results in Turkey

Erol, Bihter; Işık, Mustafa Serkan; Erol, Serdar

doi:10.3390/rs12030586

Cited by 15 publications

(3 citation statements)

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“…An investigation of error degree variances offers an insight into the error spectra of a GGM, regarded as internal error estimates; and it supplies a rudimentary quality assessment (e.g., Pail et al, 2011). The cumulative geoid error of each GGM is calculated by using the estimated errors of Stokes' coefficients of this model, and the equations we use can be seen in, e.g., Erol et al (2020). Figure 2 shows the degree-wise accumulated geoid errors of different GGMs, demonstrates the error up to the maximal degree of each model.…”

Section: Global Geopotential Modelsmentioning

confidence: 99%

An Assessment of Recently Released High-Degree Global Geopotential Models Based on Heterogeneous Geodetic and Ocean Data

Luo

et al. 2021

Front. Earth Sci.

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The development of the global geopotential model (GGM) broadens its applications in ocean science, which emphasizes the importance for model assessment. We assess the recently released high-degree GGMs over the South China Sea through heterogeneous geodetic observations and synthetic/ocean reanalysis data. The comparisons with a high resolution (∼3 km) airborne gravimetric survey over the Paracel Islands show that XGM2019e_2159 has relatively high quality, where the standard deviation (SD) of the misfits against the airborne gravity data is ∼3.1 mGal. However, the comparisons with local airborne/shipborne gravity data hardly discriminate the qualities of other GGMs that have or truncated to the same expansion degree. Whereas, the comparisons with the synthetic/ocean reanalysis data demonstrate that the qualities of the values derived from different GGMs are not identical, and the ones derived from XGM2019e_2159 have better performances. The SD of the misfits between the mean dynamic topography (MDT) derived from XGM2019e_2159 and the ocean data is 2.5 cm; and this value changes to 7.1 cm/s (6.8 cm/s) when the associated zonal (meridian) geostrophic velocities are assessed. In contrast, the values derived from the other GGMs show deteriorated qualities compared to those derived from XGM2019e_2159. In particular, the contents computed from the widely used EGM2008 have relatively poor qualities, which is reduced by 3.9 cm when the MDT is assessed, and by 4.0 cm/s (5.5 cm/s) when the zonal (meridian) velocities are assessed, compared to the results derived from XGM2019e_2159. The results suggest that the choice of a GGM in oceanographic study is crucial, especially over coastal zones. Moreover, the synthetic/ocean data sets may be served as additional data sources for global/regional gravity field assessment, which are useful in regions that lack of high-quality geodetic data.

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Section: Global Geopotential Modelsmentioning

confidence: 99%

An Assessment of Recently Released High-Degree Global Geopotential Models Based on Heterogeneous Geodetic and Ocean Data

Luo

et al. 2021

Front. Earth Sci.

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“…Данные ГНСС/нивелирования обычно используются для определения высоты геоида (ζ ГНСС/Нив ) в опорных точках и для оценки высоты геоида от ГПЗ (ζ ГПЗ ) в этих точках [3]. Например, существует ряд исследований, посвященных изучению производительности ГПЗ [4,5].…”

Section: рис 1 связь между высотами геодезической ортометрической unclassified

Research on Creating Local Geoid Models for the Coastal Territories of Egypt

Баранов¹,

Elshevi²,

El³

et al. 2021

УСЕ (ACNR)

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Технологии глобальных навигационных спутниковых систем (далее-ГНСС) играют значительную роль в современном мире. ГНСС обеспечивают геодезическую высоту, высоту над эллипсоидом, тогда как в инженерной практике обычно используются ортометрические высоты. Таким образом, важно преобразовать геодезические высоты в ортометрические высоты с помощью точной модели геоида. В этом исследовании для создания локальной модели геоида была предпринята попытка использования методов полиномиальной регрессии и искусственной нейронной сети (далее-ИНС) на прибрежных территориях Средиземного и Красного морей. Кроме того, в исследуемых областях оценивалась точность нескольких глобальных моделей гравитационного потенциала Земли (далее-ГПЗ), особенно EGM2008, EIGEN-6C4, GECO, SGG-UGM-1 и XGM2019e_2159. 87 опорных точек (с данными спутникового нивелирования) для побережья Средиземного моря и 75 для побережья Красного моря использовались для создания локальных моделей геоида и оценки точности ГПЗ. Точность локальных моделей геоида, полученных на прибрежных территориях Средиземного и Красного морей с использованием ИНС, с погрешностью не более ±0,03 м и ±0,04 м соответственно. Эти модели использовались для оценки ГПЗ в исследуемых областях. Результаты показывают, что XGM2019e_2159 представляет наиболее точную ГПЗ на прибрежной территории Средиземного моря с погрешностью не более ±0,14 м. В то время как GECO представляет наиболее точную ГПЗ модели на прибрежной территории Красного моря с погрешностью не более ±0,26 м. Рекомендуется учитывать новые методы мягких вычислений, такие как ИНС, в процессе разработки точной национальной модели египетского геоида. Ключевые слова: ГНСС\нивелирование, искусственная нейронная сеть, полиномиальная регрессия, локальная модель геоида

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“…Their investigations can increase our knowledge of the structures characteristics deformation and can aid improvements to engineering designs. They are required for the secure operation of engineered structures such as viaducts, earthworks, dams, light rail transit systems, tunnel safety analysis, bridges, and high-rise building [2]. Nowadays many tunnels (Underground structures) have been built due to congestion in over ground space to facilitate communications between cities.…”

Section: Introductionmentioning

confidence: 99%

Subway tunnels displacement analysis due to two different communication channels construction procedures

Fall

Gao

Ndiaye

2019

Heliyon

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Due to congestion in overground space, many underground structures have been built to facilitate communications between cities. These structures constructions will induce soil displacement, cities planning rearrangement, and sometimes are near to future buildings constructions. In some cases, communication channels should be built to allow the underground junction between the building and the subway station. Numerical simulation has been carried out to study the tunnel displacement behavior during construction stages. Two different procedures of the communication channel construction were also investigated. The results reliability were evaluated by monitoring six points displacement in the sheet pile walls after completion of the foundation pit. The results obtained were reasonably close to the monitoring results proven reasonably of the research ideas and the method scientificity. The results showed using sheet piles walls, and struts before soil excavation could reduce considerably the lateral displacement of the subway line during the excavation process and induce augmentation in the subway line vertical displacement. The lateral displacement effect of the walls thickness variation is much superior to the one provides by the struts cross-section and pile's diameter variations.

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An Assessment of the GOCE High-Level Processing Facility (HPF) Released Global Geopotential Models with Regional Test Results in Turkey

Cited by 15 publications

References 50 publications

An Assessment of Recently Released High-Degree Global Geopotential Models Based on Heterogeneous Geodetic and Ocean Data

An Assessment of Recently Released High-Degree Global Geopotential Models Based on Heterogeneous Geodetic and Ocean Data

Research on Creating Local Geoid Models for the Coastal Territories of Egypt

Subway tunnels displacement analysis due to two different communication channels construction procedures

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