用于湖泊温度预报的概率量化多重傅里叶特征网络:结合弹球损失进行不确定性估计

IF 2.7 4区 地球科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Siyuan Liu, Jiaxin Deng, Jin Yuan, Weide Li, Xi’an Li, Jing Xu, Shaotong Zhang, Jinran Wu, You-Gan Wang
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引用次数: 0

摘要

湖泊温度预报对于了解和减轻气候变化对水生生态系统的影响至关重要。气象时间序列数据及其关系具有高度的复杂性和不确定性,因此很难预测湖泊温度。在本研究中,我们提出了一种新方法--概率量化多重傅立叶特征网络(QMFFNet),用于准确预测青海湖的湖温。我们的模型仅利用时间序列数据,无需额外变量即可提供实用高效的预测。我们的方法整合了量子损失而非 L2-正值,使温度预测成为概率分布。这一独特功能量化了不确定性,有助于决策和风险评估。广泛的实验证明,该方法优于传统模型,可提高预测准确性并提供可靠的不确定性估计。这使我们的方法成为湖泊温度预测方面气候研究和生态管理的有力工具。概率预报和不确定性估计的创新有助于青海湖和全球水生系统更好地理解和适应气候影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Probabilistic quantile multiple fourier feature network for lake temperature forecasting: incorporating pinball loss for uncertainty estimation

Probabilistic quantile multiple fourier feature network for lake temperature forecasting: incorporating pinball loss for uncertainty estimation

Lake temperature forecasting is crucial for understanding and mitigating climate change impacts on aquatic ecosystems. The meteorological time series data and their relationship have a high degree of complexity and uncertainty, making it difficult to predict lake temperatures. In this study, we propose a novel approach, Probabilistic Quantile Multiple Fourier Feature Network (QMFFNet), for accurate lake temperature prediction in Qinghai Lake. Utilizing only time series data, our model offers practical and efficient forecasting without the need for additional variables. Our approach integrates quantile loss instead of L2-Norm, enabling probabilistic temperature forecasts as probability distributions. This unique feature quantifies uncertainty, aiding decision-making and risk assessment. Extensive experiments demonstrate the method’s superiority over conventional models, enhancing predictive accuracy and providing reliable uncertainty estimates. This makes our approach a powerful tool for climate research and ecological management in lake temperature forecasting. Innovations in probabilistic forecasting and uncertainty estimation contribute to better climate impact understanding and adaptation in Qinghai Lake and global aquatic systems.

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来源期刊
Earth Science Informatics
Earth Science Informatics COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-GEOSCIENCES, MULTIDISCIPLINARY
CiteScore
4.60
自引率
3.60%
发文量
157
审稿时长
4.3 months
期刊介绍: The Earth Science Informatics [ESIN] journal aims at rapid publication of high-quality, current, cutting-edge, and provocative scientific work in the area of Earth Science Informatics as it relates to Earth systems science and space science. This includes articles on the application of formal and computational methods, computational Earth science, spatial and temporal analyses, and all aspects of computer applications to the acquisition, storage, processing, interchange, and visualization of data and information about the materials, properties, processes, features, and phenomena that occur at all scales and locations in the Earth system’s five components (atmosphere, hydrosphere, geosphere, biosphere, cryosphere) and in space (see "About this journal" for more detail). The quarterly journal publishes research, methodology, and software articles, as well as editorials, comments, and book and software reviews. Review articles of relevant findings, topics, and methodologies are also considered.
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