2.11.2.7 mdwt(Pro)

Menu Information

Analysis: Signal Processing: Wavelet: Multi-Scale DWT

Brief Information

Perform multi-level wavelet decomposition

Additional Information

This feature is for OriginPro only.

Command Line Usage

1. mdwt ix:=2 level:=4;
2. mdwt ix:=2 type:=db2 level:=5;

X-Function Execution Options

Please refer to the page for additional option switches when accessing the x-function from script

Variables

Display
Name
Variable
Name
I/O
and
Type
Default
Value
Description
Input ix

Input

vector

<active>

Specify the input signal

Wavelet Type type

Input

int

haar

Specify the wavelet type Option list

  • haar:Haar
    Haar wavelet
  • db 2:DB2
    Daubechies wavelet (N=4
  • db 3:DB3
    Daubechies wavelet (N=6)
  • db 4:DB4
    Daubechies wavelet (N=8)
  • db 5:DB5
    Daubechies wavelet (N=10)
  • db 6:DB6
    Daubechies wavelet (N=12)
  • db 7:DB7
    Daubechies wavelet (N=14)
  • db 8:DB8
    Daubechies wavelet (N=16)
  • db 9:DB9
    Daubechies wavelet (N=18)
  • db 10:DB10
    Daubechies wavelet (N=20)
  • b11:Bior1.1
    Biorthogonal (Nr=1, Nd=1)
  • b13:Bior1.3
    Biorthogonal (Nr=1, Nd=3)
  • b15:Bior1.5
    Biorthogonal (Nr=1, Nd=5)
  • b22:Bior2.2
    Biorthogonal (Nr=2, Nd=2)
  • b24:Bior2.4
    Biorthogonal (Nr=2, Nd=4)
  • b26:Bior2.6
    Biorthogonal (Nr=2, Nd=6)
  • b28:Bior2.8
    Biorthogonal (Nr=2, Nd=8)
  • b31:Bior3.1
    Biorthogonal (Nr=3, Nd=1)
  • b33:Bior3.3
    Biorthogonal (Nr=3 Nd=3)
  • b35:Bior3.5
    Biorthogonal (Nr=3, Nd=5)
  • b37:Bior3.7
    Biorthogonal (Nr=3, Nd=7)
Extension Mode ext

Input

int

periodic

Specify the end extension mode used in wavelet transform

Option list

  • periodic:Periodic
    The input signal will be viewed as periodic.
  • pad0:Zero -padded
    The data points outside the input range will be viewed as zeroes.
Decomposition Level level

Input

int

1

Specify the number of levels for which detail coefficients are to be thresholded. A large level will cause more noise to be removed; but unfortunately the probability that the useful signal is distorted will be larger, compared with a small level.

Multiple Coeff Data rd

Output

ReportData

[<input>]<new>!

Specify the output worksheet for the approximation coefficients and detail coefficients of different levels.


Examples

  • To perform 4-level wavelet decomposition to data in columns 2 of the active worksheet, use the script command:
mdwt ix:=2 level:=4;
  • To specify wavelet type, use the type variable. For example, if you want to use Daubechies wavelet (N=2) to perform 5-level wavelet decomposition to data in column 2, enter the following script command:
mdwt ix:=2 type:=db2 level:=5;
  • Code Sample
// Wavelet decomposition and reconstruction with two different wavelet types
//Create a new workbook and import sample data
newbook  name:="Wavelet Demo" sheet:=1;
fname$=system.path.program$ + "Samples\Signal Processing\Step Signal With Random Noise.dat";
impasc;

//Multi-level wavelet decomposition using two wavelet types
mdwt ix:=col(2) type:=haar level:=3 rd:=[<input>]"Haar";
mdwt ix:=1!col(2) type:=db7 level:=3 rd:=[<input>]"DB7";
//Reconstruction
idwt ca:=2!1 cd:=2!2 type:=haar;
idwt ca:=2!5 cd:=2!3 type:=haar;
idwt ca:=2!6 cd:=2!4 type:=haar;
idwt ca:=3!1 cd:=3!2 type:=db2;
idwt ca:=3!5 cd:=3!3 type:=db2;
idwt ca:=3!6 cd:=3!4 type:=db2;

//Report
newsheet name:="report" labels:="|Haar|DB7";
wcolwidth irng:=1:3 width:="15";
wrowheight irng:=col(1)[1:5] height:=5;
wcellcolor irng:=col(1)[1:5] color:=color(249, 236, 151);
col(1)[1]$="CA3";
col(1)[2]$="CD3";
col(1)[3]$="CD2";
col(1)[4]$="CD1";
col(1)[5]$="Reconstructed";
//Insert sparklines for coefficients and reconstructed signals
insertSparklines irng:=(2!1:4, 2!7)  name:=0 orng:=col(2)[1];
insertSparklines irng:=(3!1:4, 3!7)  name:=0 orng:=col(3)[1];
window -z; //Maximize window

More Information

For more information, please refer to our User Guide.


Related X-Functions

dwt, idwt, wtsmooth


Keywords:decompose