该预测明显属于中期预报。
该方法对地震地点的中期预报有一定的意义。
The method is helpful to predict the middle period of earthquake place.
井孔水位记震能力变化可能是地下水中期预报地震的一种新方法。
The recording capacity variation of water level in wells might be a new method for the intermediate-term prediction in groundwater research domain.
在夏收期间的中期预报中,使用了非线性多元样条函数回归预报模型。
The nonlinear multiple spline progressive regression model is used in the medium-range prediction of sununer harvest.
为了解决天气尺度在中期预报的不可预报性问题,引入了天气类型的概念。
In order to resolve the problem that the synoptic scales are not predictable in the medium range, the conception of weather type was introduced.
研究结果表明:地震分布的多重分形维数谱和奇异性谱对于一些典型震区的强震发生具有中期预报价值。
The results show that the medium term symptoms of strong earthquakes in some regions can be proposed from the multi fractal dimension spectrum and singularity spectrum of earthquake distribution.
结果表明,中强地震前1 ~3年未来震中周围通常出现明显的W1值中期异常区,该方法具有较好的中期预报效果。
The result shows that the mid-term anomaly zone of W1-value usually appears obviously around the epicenter about 1-3 years before future earthquakes with good prediction effect.
提出一个对多元判据综合评估的中期天气客观相似预报模式。
An objective analogue model for medium range weather forecast considered synthetic evaluation by multi criterion is developed.
本文对近年来在加卸响应比理论应用于中期地震预报的研究方面所取得的进展进行了评述。
The recent development of loading and deloading response ratio applied to study of medium-term earthquake prediction is reviewed.
以欧洲中期天气预报中心的集合预报系统的控制预报和集合预报为例,对确定性预报和概率预报的情况分别进行了说明。
Using the ECMWF ensemble forecasting system as an example, a deterministic forecast case and a probability forecast case are discussed, respectively.
不考虑天文潮汐可能是1998年欧洲中期数值预报产生较大误差的重要原因。
The important cause that ECMWF medium-term numerical forecast made errors in 1998 is that astronomical tide is not included in the model.
本文利用一个全球谱模式(T63L9)和1994年4个时段个例的全球客观分析资料探讨了中期数值天气预报的误差订正方法。
With a global spectral model (T63L9), a error correction method for medium range weather forecasting has been studied using initial fields of four time periods in 1994.
在自组织临界现象、几何相变等物理理论的基础上,开发研究了基于自组织临界现象的中期地震预报算法。
In this paper, an algorithm for intermediate term earthquake prediction is made according to percolation theory and the phenomenon of self organized criticality.
所提出的方法能够在崩滑灾害的中期、短期及临阵预报方面发挥作用。
The suggested method could be hopefully applied to the medium-term, short-term and critical-sliding prediction of landslides and avalanches in the future.
结果表明:绝大部分中强以上地震前2 ~3年,在未来震中周围出现较大范围的A值中期异常区域,有很好的预报效果。
The result shows that there are obviously anomaly zones of a value with better prediction ability, in mid term of 2 ~ 3 years before most moderately strong earthquakes.
为解决传统的数值预报初值存在的不确定性,利用增长模繁殖法在T106L19全球谱模式上进行了中期集合预报试验。
To solve the uncertainty of initial fields in the traditional numerical forecast, medium-range ensemble forecast experiments using the model T106L19 were made.
该中心的主要目标是:开发数值方法中期天气预报;
The principal objectives of the Centre are: the development of numerical methods for medium-range weather forecasting;
T63对西风带天气系统及副热带高压的预报也比T42好,为中期天气预报提供了信息。
The forecasts by T63 model are better than that by T42 for the westerly system and subtropical high. It provides useful information for the medium range forecast.
介绍了国家气象中心现行中期数值预报业务系统;
This paper introduced the operational medium range numerical weather prediction system in the national meteorological Center;
中期模型优化的时间跨度等于中期入库径流预报的预见期(3-7天),优化时段为一天。
The time span of middle-term optimization model equal foreseeable period of runoff forecasting (3 to 7 days), and the optimization period is one day.
美国的气象预报人员具有使用欧洲中期天气预报中心该模型的全部权限。
Weather forecasters in America have full access to the ECMWF's model.
本文介绍了一个针对我国目前中长时效天气预报在客观、定量方面存在的不足而研制出来的中期天气预报客观化系统。
In this paper a extended forecast objective system is intro- duoed. It is made according to our state has been existing the insufficient in objection and quantity at present.
欧洲中期天气预报中心对其强大的运算能力使用分布得当亦值称赞。
The ECMWF also deserves credit for deploying its computational force wisely.
今年11月,全球预报系统有望将换装比欧洲中期天气预报中心运行速度更快的超级电脑。
By November it is expected to run on a faster computer than the ECMWF's.
今年11月,全球预报系统有望将换装比欧洲中期天气预报中心运行速度更快的超级电脑。
By November it is expected to run on a faster computer than the ECMWF's.
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