HyperMath

BlockFrfReal

BlockFrfReal

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BlockFrfReal

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The real component of a Frequency Response Function (FRF) calculated using blocking.  There are two forms.

Note: This item is deprecated and will be removed in a future release.

Syntax

Real_part = BlockFrfReal(vec1, vec2, block_size, overlap)

Real_part = BlockFrfReal(vec1, vec2, window, overlap)

Arguments

Name

Description

 

vec1

A vector of input to a system.

 

vec2

A vector of output from a given system.

 

block_size

The number of elements to be used for each FRF (should be a power of 2).  Must be a positive integer and not greater than the length of vec1.

 

window

A vector of window weights to apply to each block.  Its length should be a power of 2.  This length is used as the block_size.

 

overlap

The number of elements shared between consecutive blocks.  Must be a non-negative integer and less than block_size.

Output

Name

Description

 

Real_part

A vector of the real component of the FRF.

Example 1

Find the real component of the FRF between the input vector input and the output vector output, using a block size of 256 and an overlap of 128.

 

Syntax

 

output = BlockFrfReal(input, output, 256, 128)

 

Results

 

output is a vector of the real components.

Example 2

Repeat the above example with a Hanning window instead.

 

Syntax

 

output = BlockFrfReal (input, output, HannWin(256), 128)

 

Results

 

output is a vector of the real components.

Comments

The BlockFrfReal function uses blocking to calculate the real component of a Frequency Response Function (FRF). vec1 and vec2 are assumed to be evenly sampled.  The resultant vector has a number of elements equal to the least power of two greater than or equal to block_size.

The FRF is complex-valued and used to map time-domain data into the frequency domain.

The BlockFrfReal function is different from a normal FRF in that it introduces blocking.  The input vector is subdivided into blocks, each having block_size number of elements.  An FRF is then performed on each individual block.  The results of these FRFs are then averaged to give the final result.

See Also:

BlockFrfImag

BlockFrfMag

BlockFrfPhase

Fold

Freq