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Predicting the Sound Speed of Seafloor Sediments in the East China Sea Based on an XGBoost Algorithm

Mujun Chen, Xiangmei Meng, Guangming Kan, Jingqiang Wang, Guanbao Li, Baohua Liu, Chenguang Liu, Yanguang Liu, Yuanxu Liu, Junjie Lu

2022Journal of Marine Science and Engineering13 citationsDOIOpen Access PDF

Abstract

Based on the acoustic and physical data of typical seafloor sediment samples collected in the East China Sea, this study on the super parameter selection and contribution of the characteristic factors of the machine learning model for predicting the sound speed of seafloor sediments was conducted using the eXtreme gradient boosting (XGBoost) algorithm. An XGBoost model for predicting the sound speed of seafloor sediments was established based on five physical parameters: density (ρ), water content (w), void ratio (e), sand content (S), and average grain size (Mz). The results demonstrated that the model had the highest accuracy when n_estimator was 75 and max_depth was 5. The model training goodness of fit (R2) was as high as 0.92, and the mean absolute error and mean absolute percent error of the model prediction were 7.99 m/s and 0.51%, respectively. The results demonstrated that, in the study area, the XGBoost prediction method for the sound speed of seafloor sediments was superior to the traditional single- and two-parameter regressional equation prediction methods, with higher prediction accuracy, thus providing a new approach to predict the sound speed of seafloor sediments.

Topics & Concepts

Seafloor spreadingGeologySedimentSpeed of soundChina seaEstimatorSound (geography)Soil scienceStatisticsOceanographyAcousticsMathematicsGeomorphologyPhysicsUnderwater Acoustics ResearchMethane Hydrates and Related PhenomenaSeismic Imaging and Inversion Techniques
Predicting the Sound Speed of Seafloor Sediments in the East China Sea Based on an XGBoost Algorithm | Litcius