借助拉格朗日乘数法建立增广的目标函数,提出等耗量微增率准则及静态锅炉模型辨识方法,对耗量函数的性质给出了凸性要求。
An enhanced target function is built up via Lagrange multiplier and the principle of equal mini rate of consumption increasement and the method of static boiler model analysis are put forward.
随后,通过拉格朗日优化算法,找到了平衡编码量和失真大小的宏块的最佳编码模式。
Then we calculate the Lagrangian cost to balance the rate and distortion, by which we can find the best encoding mode.
运用拉格朗日乘数法,以最大制冷量为优化目标,对该系统进行了优化,得到最大制冷量的一般表达式。
Applying the method of Lagrange multiplier, the system is optimized for maximum cooling rate and gets the rate general expression.
与常用的拉格朗日插值方法相比,改进后的公式不仅一阶导数形式简单,而且计算量也小得多。
The improved formula not only has the more simple form for the derivation of the function, but also much less computer time than the Lagrange method.
此方法融合了拉格朗日,牛顿—欧拉法以及旋量的特点,易于求解。
This method combines the features of Lagrange method, Newton - Euler method and screw theory, and is easy to solve.
此方法融合了拉格朗日,牛顿—欧拉法以及旋量的特点,易于求解。
This method combines the features of Lagrange method, Newton - Euler method and screw theory, and is easy to solve.
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