据此讨论了气候变化中地球轨道参数对辐射项的影响。
Accordingly, the influence of the earth's orbital parameters on the radiation term in the climatic change is also discussed.
因此,地球轨道参数变化影响气候长期变化只是其中一种因素。
Therefore, the change of Earth orbital parameters is just one of factors, which could lead to the paleoclimate variation.
迄今为止,地球轨道参数的变化是地质尺度上惟一可以精确定量计算的周期现象,可以用作地质计时的标尺。
Up to now, the Earth's orbital parameters remain the only periodicities in geology subject to precise calculations and, therefore, may provide new scales for geochronology.
地球轨道参数驱动的太阳辐射变化造成了中全新世北半球大陆夏季的普遍增温,但中低纬度的冬季温度低于现代。
The orbit forcing theory suggests that the insolation at 6ka was lower than at the present in winter season in low and middle latitudes.
首先,地球上适宜生命存在的气候取决于极其狭窄的轨道参数,这些参数定义了一个持续可居住的地带,在那里水可以以液态存在。
First, a climate conducive to life on Earth depends upon the extraordinarily narrow orbital parameters that define a continuously habitable zone where water can exist in a liquid state.
本文提出了满足设计要求的地球资源卫星轨道参数的计算方法。
The paper offers the computation method of Earth Resources Technology Satellite orbit meeting the requirements.
本文将一种有效的自适应滤波方案成功地应用于地球同步卫星轨道交会时的状态估计与参数估计之中。
An efficient adaptive filtering scheme is successfully used in the state and parameter estimation for the orbital rendezvous of earth synchronous satellites.
由于滤波器参数随地形进行调整,其性能优于仅仅依赖轨道参数或平坦地球相位估计的固定带宽非自适应滤波器。
Adjusting the filter parameters according to the local topography, the adaptive filter performs better than the fixed bandwidth non-adaptive one designed through flat earth phase estimation.
由于滤波器参数随地形进行调整,其性能优于仅仅依赖轨道参数或平坦地球相位估计的固定带宽非自适应滤波器。
Adjusting the filter parameters according to the local topography, the adaptive filter performs better than the fixed bandwidth non-adaptive one designed through flat earth phase estimation.
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