地表移动与变形极值计算是开采沉陷预计的重要内容。
The calculation of maximum ground movement and deformation values is an important link in mining induced subsidence prediction.
在我国,概率积分法是应用最多的一种开采沉陷预计方法。
In our country, the probability integration model is most applied as a predicting method in mining subsidence.
然而,截止目前,神经网络在山区开采沉陷预计方面的应用还比较少,仍处于探索阶段。
But So far, for less application in mountainous mining subsidence prediction, neutral network is still at the exploratory stage.
主要影响角正切是开采沉陷预计的重要参数,对于地表影响范围的确定具有重要的意义。
The tangent of the main influencing Angle is an important parameter for mining subsidence prediction and surface displacement range demarcation.
在极小工作面开采条件下,利用概率积分法进行开采沉陷预计时结果与现场实测有较大偏差。
There are great differences between the predicted result using probability integral method and the practical observation under condition of exploiting minimal working face.
并结合控制开采方法、煤柱稳定性分析、地表沉陷预计、采动滑坡区灾害预测理论以及数值模拟确定了控制开采的评价方法。
And combine control mining method, surface subsidence preplan theory, mining landslide area disaster forecast and numerical simulation studied out controlling mining estimate measure.
采用某矿区实测资料对模型进行验证,预计结果最大相对误差9%,可以满足矿山开采沉陷预测的要求。
The measured data of the mining area are used to verify the model with the expected results of the maximum relative error 9%, which can meet the requirements of mining subsidence.
采用某矿区实测资料对模型进行验证,预计结果最大相对误差9%,可以满足矿山开采沉陷预测的要求。
The measured data of the mining area are used to verify the model with the expected results of the maximum relative error 9%, which can meet the requirements of mining subsidence.
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