本文对求工程特征值问题的矩阵反迭代法作了改进。
New algorithm of matrix inverse iteration on the eigenvalue problem are presented in this paper.
然后应用反迭代法与边界层渐近匹配的方法求解了钝锥边界层的稳定性方程,得到了钝锥边界层转捩数据。
The Rayleigh inverse-iteration method and boundary layer asymptotic expansion method are used to solve the blunt cone boundary layer stability equation to get reliable boundary layer transition data.
我键入printf,反斜杠n,来使屏幕变得美观点,然后i开始迭代,从i等于0增加到;,所以ArgC是一个约定。
I print F, I backslash N, just to pretty up the screen, ArgC I then iterate from, I equal zero up to Arg C; so Arg C is the convention.
如果你对STL不熟悉,去看看有关迭代器反引用操作符的内容,它返回当前指向的对象,上面代码段中,for循环里的代码等同于。
In case you're not up on your STL, recall that for iterators the dereference operator returns the current object, so the line inside the for loop in the preceding snippet is equivalent to.
提出了一种求解龙抬头泄洪洞反弧段流场的新方法——流线迭代法。
A new approach streamline iteration method for calculating flow field of flood tunnel bucket is presented.
非线性算法包括参数盲反卷积(PBD)、迭代盲反卷积(IBD)、最大似然盲反卷积(MLBD)算法等。
The nonlinear methods include parametric blind deconvolution(PBD), iterative blind deconvolution(IBD), maximum likelihood blind deconvolution(MLBD), etc.
在分析空—时逆滤波和时反处理关系的基础上,提出了一种迭代时反的方法。
The relation between spatiotemporal inverse filter and time reversal is analyzed, and the iterative time reversal is presented.
第3章研究和分析了基于小波的图像复原算法,包括小波域的阈值反卷积算法、迭代正则化算法和参数模型算法。
Chapter 3 studies and analyzes the wavelet-based image restoration algorithms, including threshold deconvolution algorithm, iterative regularization algorithm and parameter model algorithm.
采用无条件稳定的精细逐步积分法求解结构的模态动力学微分方程,构造了通过结构的模态响应反求荷载列阵的迭代算法。
The highly precise direct integration scheme is used for solving modal dynamic differential equation of the structure nd a dynamic load identification method by the modal responses is proposed.
先验模糊辨识方法是先获得点扩展函数的信息后再进行图像恢复,而迭代盲目反卷积方法是同时估计出清晰图像和点扩展函数。
Priori Blur Identification gets the PSF before restoration implementation, while Iterative Blind Deconvolution estimates the true image and the PSF at the same time.
研究了迭代时反处理和时反算子分解方法。
The iterative time reversal processing and the decomposition time reversal operator method are studied.
对实际测量数据进行处理表明,迭代正则化反卷积算法能够计算出固体电介质中的空间电荷分布。
Finally, the original experimental data are dealt with and the real space charge distribution in dielectrics is obtained.
通过反复迭代进行时反操作,可以明显提高聚焦信号能量;
Repeated time reversal iterations can obviously enhance the focus signal energy.
利用传输矩阵分析了迭代时反处理的收敛性和时反算子分解方法的原理。
The principle of the time reversal processing and its spatial and time focusing are studied.
提出了一种用六丝悬吊法控制形状复杂或不规则目标飞行物姿态的方案,建立了数学模型,着重论述了用反解迭代逼近绳长的算法进行位姿求解的思路。
We propose a six-wire suspension method to control the attitude of a flyer of complicated or irregular shape and set up its mathematical model.
提出了一种用六丝悬吊法控制形状复杂或不规则目标飞行物姿态的方案,建立了数学模型,着重论述了用反解迭代逼近绳长的算法进行位姿求解的思路。
We propose a six-wire suspension method to control the attitude of a flyer of complicated or irregular shape and set up its mathematical model.
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