Luong Thanh Thach, Nguyen An Dinh, Nguyen Dinh Hai, Tran Van Hai, Le Nhung, Le Thi Thanh Tam, Pham Thi Thanh Thuy, Nguyen Dinh Thanh, Do Thi-Nhung
Hanoi University of Natural Resources and Environment, No. 41A, Phu Dien Street, Phu Dien Ward, Bac Tu Liem District, Hanoi, Viet Nam.
Surveying and Aerial Mapping Co., Ltd, Viet Nam.
MethodsX. 2024 Feb 22;12:102624. doi: 10.1016/j.mex.2024.102624. eCollection 2024 Jun.
The mean sea surface in different regions is non-equipotential, rendering Vietnam's traditional approach, which relies on the Hon-Dau tide gauge station as a reference, not yet scientifically invalid. To overcome this, our study utilized the Vietnam national mean dynamic topography model (MDTVN22) for depth observations, particularly in the Gulf of Tonkin. Covering 3430 monitoring sites in Hai Phong and 813 sites in Quang Ninh, our experiments highlighted a 5 to 6 mm difference between the mean sea surface and MDTVN22 references. •Our research establishes a resilient methodology, integrating shore tide gauge station data and the MDTVN22 model, aimed at enhancing precision in depth observations.•Validation experiments in Hai Phong demonstrate a minimal discrepancy of ±0.006 m between measurements obtained from the traditional mean sea surface and the MDTVN22 model.•These findings underscore the significance of adopting the MDTVN22 model for improved accuracy in assessing Vietnam's seabed topography.
不同区域的平均海平面并非等势面,这使得越南依赖鸿岛潮汐测量站作为参考的传统方法尚无科学上的无效性。为克服这一问题,我们的研究利用越南国家平均动力地形模型(MDTVN22)进行深度观测,特别是在东京湾。我们的实验覆盖了海防的3430个监测点和广宁的813个监测点,突出显示平均海平面与MDTVN22参考值之间存在5至6毫米的差异。•我们的研究建立了一种灵活的方法,整合海岸潮汐测量站数据和MDTVN22模型,旨在提高深度观测的精度。•在海防的验证实验表明,传统平均海平面测量值与MDTVN22模型测量值之间的最小差异为±0.006米。•这些发现强调了采用MDTVN22模型对于提高越南海床地形评估准确性的重要性。
