1·The main mathematical tool of this method is bilinear interpolation.
该方法的主要数学工具是双线性插值。
2·In order to speed up, a discrete bilinear interpolation algorithm is proposed.
为提高其计算速度,提出了离散化双线性插值算法。
3·Three-dimensional MCG is plotted by the way of bilinear interpolation and higher fitting.
通过线性插值和高阶拟合的方法,绘制出人体心脏各个时刻的等磁图。
4·I think the problem can be solve via bilinear interpolation between the corner points of every square.
我认为这个问题可以解决通过双线性插值每平方角点之间。
5·Firstly, the algorithm of triangular bilinear interpolation is shown in detail and applied to acquire the profile from TIN.
首先,实现了三角形双线性内插算法并应用于纵断面获取。
6·The realized results show that the bilinear interpolation algorithm and its hardware realizing modules achieve the desired results.
应用结果表明,双线性插值算法及其硬件实现模块达到了预期的效果。
7·In space discretization, a piecewise bilinear interpolation is used. THe integrals over patches are carried out analytically in closed form.
采用分片双线性插值的空间离散方案,经解析处理,子域上的积分能得到闭式结果。
8·Finally, the rigid transformation and bilinear interpolation in the image prepared for registration is carried out to realize image registration.
最后对待配准图像进行刚体变换及双线性插值,从而实现图像配准。
9·The bilinear interpolation and neural network was analyzed, and the two means were used to modify the nonlinearity error of PSD and compensate it.
对插值算法、神经网络算法进行了分析,并利用这两种方法对P SD的非线性误差进行了修正补偿。
10·The accuracy of hardware correction is decided by the accuracy of software correction. The hardware bilinear interpolation has good accuracy and can correct general images.
硬件的校正精度取决于软件的校正精度,双线性内插法具有良好的精度、完全满足一般图像灰度校正的要求。