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armfly-DSP-tutorials-Chapter-21
- 本教程使用的DSP库来自ARM官方,此库支持以CM0,CM3,CM4以及CM7为内核的所有MCU。本期教程主要讲解一维数据的线性插值和二维数据的双线性插值。-This tutorial uses a DSP library the ARM official, this library supports CM0, CM3, CM4 and CM7 for the kernel of all MCU.
piliangshuangxianxingchazhisuofang
- 采用双线性插值的方法,对大样本的灰度图像进行尺度缩放,能够得到较好的缩放图像-Using bilinear interpolation method, gray image of large sample size scaling, can get better resized images
Zoomin_img
- 图像放大,灰度级差值分别采用邻近插值和双线性插值-Image zoom .grayscale difference respectively use neighbor interpolation and bilinear interpolation
redress
- 图像校正,坐标映射使用向前映射和向后映射。灰度级插值使用双线性插值-Image correction. coordinate mapping use forward mapping and backward mapping. Grayscale interpolation use a bilinear interpolation
registration
- 遥感影像的几何纠正,通过输入同名点文件计算多项式纠正系数,可通用,再通过双线性插值实现几何纠正-list on two images, this method can be use to any sitution if you already choose the corresponding points, and then bilinear interpolation to get the gray value
Source-Code
- 双线性插值,对图像进行放大缩小,upsampling,down sampling-Bilinear interpolation on the image to zoom, upsampling, down sampling
3
- 双线性插值,实现双线性插值功能,VB语言实现双线性插值-Bilinear interpolation, bilinear interpolation function to achieve, VB language bilinear interpolation
project_11_first_d1_HDMI
- 本代码将TW2867第一通道输出解复用以后进行BT.656格式的解析,然后将奇偶场合并为一帧存入DDR2,读取的时候使用双线性插值算法,将原始的720 x576的分辨率放大到800x600,然后在HDMI口输出。-This code will TW2867 first channel output demultiplexing after parsing BT.656 format, then the parity occasions and as a frame stored in DDR2,
PictureDo
- 包括最近邻插值,双线性插值,双三次插值的图像缩放、旋转及其误差分析。-Including the nearest neighbor interpolation, bilinear interpolation, bicubic interpolation image scaling, rotation and error analysis.
matlab 图像旋转
- 不使用MATLAB内置函数,自己编程实现图像的旋转3.编写程序实现图像旋转功能。将“lena.bmp”图像绕图像中心逆时针旋转20度,并显示结果。要求: (1)不要使用imrotate函数; (2)涉及到坐标映射时采用向后映射; (3)涉及到插值时采用邻近插值和双线性插值,对比结果;
image-transform
- 本算法采用C#进行界面编程,实现图像的放大缩小和旋转,可自选放大缩小倍数和旋转角度,也可以自行选择插值方式:最近邻插值、双线性插值和双三次插值-The algorithm uses C# for interface programming, image zooming and rotation can be optional zoom factor and the rotation angle can also choose their own interpolation method: nea
GeometricTransform
- 不仅运用C#具有内置的方法来实现图像的几何变换:旋转,缩放,错切和平移,而且还运用仿射变换算法来实现上述的几何变换。最后,运用双线性插值和三次卷积插值算法实现图像的插值运算-Not only the use of C# has a built-in method to achieve an image of geometric transformations: rotation, scaling, shearing and translation, but also the use of the
zoom
- 图像处理 旋转、缩放、平移 仿射变换 双线性插值 三次卷积-Image processing, rotate, zoom, pan, affine transformation, bilinear interpolation, cubic convolution
image-scaling
- 图像的缩放,涉及到最佳临近插值、双线性插值、二次方插值。- Image scaling, related to the best approach to interpolation, bilinear interpolation, two square interpolation.
tuxiangsuofang-
- 软件图像缩放实现,完整双线性插值算法源代码-photoes change
imagereconstruction
- 通过四邻域方法获得低分辨率图像,用双线性插值和邻域插值进行超分辨率图像重建-The low resolution image is obtained by the four neighborhood method, and the super resolution image is reconstructed by the bilinear interpolation and the neighborhood interpolation.
shuangxianxingchazhi
- 主要是利用opencv与C++实现彩色图像的双线性插值,此程序简单便于理解。-Mainly using opencv with c++ implementation bilinear interpolation of color image, the program simple and easy to understand.
up-sampling-and-down-sampling
- 升采样和降采样,包含matlab 源码,使用和不使用平滑降采样,邻近插值和双线性插值升采样-up sampling and down sampling
interpol_demo3
- 压缩包内为双线性插值和cressman插值示例-Compressed package for bilinear interpolation and interpolation example cressman
myResize
- 自己写的双线性插值缩放,注释完整,有问题客流交流-bilinear resize