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盘古预报产品融合物理约束深度学习温度预报方法OA

Temperature Forecasting Method of Physics-Constrained Deep Learning Integrated with Pangu-Weather Model Forecast Products

中文摘要英文摘要

针对复杂地形区域2 m气温(T2m)精细化预报的挑战,选取地形复杂的广西区域为研究对象,以盘古天气模型(Pangu-Weather)预报产品为基础,提出了一种融合物理约束的深度学习预报模型PSD-Net.使用Pangu-Weather的预报产品(PANGU)作为特征变量输入,通过基于超分辨率生成对抗网络的生成器提取多尺度特征,在损失函数中显式引入功率谱密度和Kullback-Leibler散度作为约束项,以提高预报结果在频域、概率分布上与实况的一致性.对比2024年欧洲中期天气预报中心模式预报、国家气象中心T2m指导产品和PANGU这3类预报产品在广西区域的预报表现,结果表明PSD-Net的格点预报和站点预报均优于对比产品,其中格点预报平均绝对误差较PANGU降低37.6%,准确率提升17个百分点;1~72 h时效的T2m预报,PSD-Net的平均绝对误差和均方根误差随预报时效增长的幅度均小于对比产品,其中25~72 h误差增长趋势平缓.本研究验证了物理约束深度学习框架在T2m精细化预报中的有效性,为气象与AI模型结合提供新思路.

Aiming at the fine-scale forecasting challenge of 2 m temperature(T2m)in complex terrain areas,this paper selects the Guangxi Region,a typical area with complex terrain,as the research object and pro-poses a physics-constrained deep learning forecasting model named PSD-Net,which integrates the forecast products of the Pangu-Weather Model.The forecast products of Pangu-Weather(PANGU)are used as feature variables input.The generator based on the super-resolution generative adversarial network is em-ployed to extract multi-scale features.Power-spectral-density and Kullback-Leibler divergence are explicit-ly injected into the loss function as constraint terms so as to improve the consistency of forecast products with observations in spectral fidelity and probability distribution.Compared to the T2m forecast perform-ance of the ECMWF,SCMOC and PANGU products in the Guangxi Region in 2024,both the grided fore-casts and station-based forecasts of PSD-Net outperform the compared forecast products.In particular,the mean absolute error(MAE)of the gridded forecasts is reduced by 37.6%relative to that of PANGU and the accuracy is improved by 17 percentage points.The growths of both MAE and root mean square error(RMSE)for the 1-72 h T2m forecast products from PSD-Net are less than those of the compared forecast products,and there is a gentle error growth at lead time 25-72 h.In a word,this study has verified the effectiveness of the physics-constrained deep learning framework in fine-scale T2m forecasting which could provide a new approach for the combination of meteorological and AI models.

蒋健;李明志;李超;黄开刚;龙柯吉

广西壮族自治区百色市气象局,百色 533000广西壮族自治区百色市气象局,百色 533000||中国气象局百色岩溶生态气象野外科学试验基地,百色 533000中国气象局武汉暴雨研究所 中国气象局流域强降水重点开放实验室/暴雨监测预警湖北省重点实验室,武汉 430205广西壮族自治区百色市气象局,百色 533000||中国气象局百色岩溶生态气象野外科学试验基地,百色 533000四川省气象台,成都 610072||高原与盆地暴雨旱涝灾害四川省重点实验室,成都 610072

天文与地球科学

2 m气温AI物理约束预报模型检验评估

2 m temperatureAIphysics-constrainedforecast modelperformance evaluation

《气象》 2026 (5)

538-551,14

广西壮族自治区气象局气象科研计划项目(桂气科2024M20)、湖北省自然科学基金项目(2023AFD101)、高原与盆地暴雨旱涝灾害四川省重点实验室科技发展基金项目研究型业务重点专项(SCQXKJYJXZD202402)、中国气象局航空气象重点开放实验室青年课题(HKQXQ-2025007)共同资助

10.7519/j.issn.1000-0526.2026.030903

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