利用随机森林和坐标注意机制提高浑浊沿岸环境中的水深反演精度

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-07 DOI:10.3389/fmars.2024.1471695
Siwen Fang, Zhongqiang Wu, Shulei Wu, Zhixing Chen, Wei Shen, Zhihua Mao
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引用次数: 0

摘要

本研究以盐田港为重点,介绍了一种针对复杂海岸环境的创新水深估算方法。通过将随机森林算法与坐标注意机制相结合,我们解决了传统水深测量技术在浑浊水域中的局限性。我们的方法结合了地理坐标,提高了空间精度和传统模型的预测能力。Random Forest Lon./Lat. 模型表现出卓越的性能,尤其是在浅水深度估算方面,在所有评估模型中取得了优异的精度指标。它的均方根误差(RMSE)最低,判定系数(R²)最高,优于 Stumpf 和对数线性方法等标准技术。这些发现凸显了先进的机器学习在彻底改变错综复杂的海岸带水深测绘方面的潜力,为港口管理、海岸工程和海岸生态系统的环境监测开辟了新的可能性。我们建议将这项研究推广到不同的沿海地区,以验证其更广泛的适用性。此外,探索整合更多的地理空间特征可以进一步提高模型的准确性和计算效率。这项研究标志着测深技术的重大进步,为在充满挑战的水生环境中准确估算水深提供了更好的解决方案。随着我们在这一领域不断突破极限,加强海岸管理和环境管理的潜力也在不断增长,从而为全球沿海地区更可持续、更明智的决策铺平道路。
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Enhancing Water depth inversion accuracy in turbid coastal environments using random forest and coordinate attention mechanisms
This study introduces an innovative water depth estimation method for complex coastal environments, focusing on Yantian Port. By combining Random Forest algorithms with a Coordinate Attention mechanism, we address limitations of traditional bathymetric techniques in turbid waters. Our approach incorporates geographical coordinates, enhancing spatial accuracy and predictive capabilities of conventional models. The Random Forest Lon./Lat. model demonstrated exceptional performance, particularly in shallow water depth estimation, achieving superior accuracy metrics among all evaluated models. It boasted the lowest Root Mean Square Error (RMSE) and highest coefficient of determination (R²), outperforming standard techniques like Stumpf and Log-Linear approaches. These findings highlight the potential of advanced machine learning in revolutionizing bathymetric mapping for intricate coastal zones, opening new possibilities for port management, coastal engineering, and environmental monitoring of coastal ecosystems. We recommend extending this research to diverse coastal regions to validate its broader applicability. Additionally, exploring the integration of additional geospatial features could further refine the model’s accuracy and computational efficiency. This study marks a significant advancement in bathymetric technology, offering improved solutions for accurate water depth estimation in challenging aquatic environments. As we continue to push boundaries in this field, the potential for enhanced coastal management and environmental stewardship grows, paving the way for more sustainable and informed decision-making in coastal zones worldwide.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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