Abstract
Tidal correction is important for shallow water multibeam sonar to ensure vertical accuracy to International Hydrographic Organization Order 1 standards. The number and distribution of tidal control stations have important influences on tidal zoning and reduction. In many cases, tidal residuals will be unavoidable because of tidal representative errors, particularly when using a single tidal station. Tidal residuals cause depth discrepancies in overlapping areas between the two neighboring swaths. They are different from other vertical error sources. For a multibeam survey project, the distance between the tidal control station on the shore and the survey site or the area surveyed in a single day is relatively short. Therefore, the tidal characteristics between them are usually equal. The tidal curve at each bathymetric point in the small area can be recovered by the observed tide at a single station nearby and synchronous multibeam bathymetric data. After other errors have been considered and corrected, the tidal parameters—that is, the time difference of tide, the ratio of tidal ranges, and the direction of tidal wave propagation—can be estimated with the depth discrepancies and the tidal data from a single station using the least squares method. Then, the tidal residuals can be calculated based on the estimated tidal parameters. The quality of final bathymetry can be improved by the corrections as verified by a field test.
Acknowledgements
The authors thank Professor Yongqi Chen of the Hong Kong Polytechnic University for the constructive comments and polishing the English of the text. The authors thank Professor Xinhua Zhou and senior engineer Yongting Wu of the First Institute of Oceanography, State Oceanic Administration, for providing the field data.
Funding
This work was supported by the project of National Nature Science Foundation of China (41376108), Shandong Provincial National Science Foundation for Distinguished Young Scholars (Grant No. JQ201113), Public Science and Technology Research Funds Projects of Ocean (201305034), and the National Key Technology R&D Program (2012BAB16B01).