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work3
- 计算普通褶积与循环褶积,分别使用时间域与频率域两种方法进行正、反演计算,指出循环褶积计算时所存在的边界效应现象;编写一个做相关分析的源程序-Ordinary convolution and circular convolution, respectively, using the two methods of time domain and frequency domain inversion calculation, pointing out that the phenomenon of ci
zhejixiugai
- 用于计算两个未知长度信号的褶积程序,它可以作为反滤波中的一个小模块使用-Used to calculate the two signals of unknown length convolution procedure, it can act as inverse filtering in a small module
zheji
- 利用反褶进行的褶积运算合成地震记录。子波使用雷克子波,长度为Nw,Nt为反射系数长度,Nx为道数。提供四个地下模型:水平界面,两层水平界面,绕射界面和倾斜界面。输出二进制文件。-Use convolution operation performed deconvolution synthetic seismogram. Ricker wavelets using wave length Nw, Nt is the reflection coefficient length, Nx is the
operation_sequence
- 数字信号处理序列变换的matlab实现,包含常用序列的反褶 平移 差分 尺度变换 卷积 累加 求和等内容-Digital signal processing sequence transform matlab realize, deconvolution translation difference scaling volume contains common sequence plus accumulated sums and other content
bfgs_test
- 地震波阻抗反演,用于一维、二维褶积模型,其中梯度函数和目标函数根据自己的需要建立-Seismic impedance inversion, for one-dimensional, two-dimensional convolution model, in which the objective function and the gradient function according to their own needs to establish
Dynamic-demonstration-of-DC
- 通过本次实验更加深刻具体的了解信号与系统中离散卷积的运算过程.知道了信号的反褶和位移,阶跃信号x[n]在卷积中的运用,熟练掌握了卷积过程,为信号与系统后面的学习打下了基础。并且在利用MATLAB实现离散卷积的动态过程中,把课本上的理论知识与软件学习相结合,使卷积在脑海中留下更加立体生动的印象。-Through this experiment a deeper understanding of specific signals and systems Discrete convolution op
shuzichulikechengsheji
- 数字处理课程设计的程序,里面包括有褶积滤波,快变滤波,褶积滤波与递归滤波的比较,设计高通滤波因子,分析补零对振幅谱的影响,线性褶积和循环褶积,最小平方反滤波,零相位转换,最小相位转换,对地震记录进行静校正11个程序-Digital Processing course design program, which includes the convolution filter, quick change filter, compare convolution filtering and recurs
3
- 计算普通褶积与循环褶积,分别使用时间域与频率域两种方法进行正、反演计算,指出循环褶积计算时所存在的边界效应现象;编写一个做相关分析的源程序-Calculation ordinary convolution and circular convolution, respectively, using the time domain and frequency domain in two ways positive, inverse calculation, noted the phenomenon