Sigma LBA-700 Manuale Utente

(

)

∑∑

−

=

2

min

 

 

Where: 

Z

xy

 = Amplitude of the pixel data at (x,y). 

S

xy

 

= Amplitude of fitted surface at (x,y). 

  

The bivariate normal equation is used to fit data in two locked directions, X and Y.  The Whole Beam 

selection assumes the beam is round or elongated parallel to the horizontal or vertical axis.  The 
definition of the bivariate normal equation and the displayed results are as follows:  







































−

+











 −

−

=

2

2

2

/

2

/

2

 

Where: 

J

     = 

Amplitude at the point (

x,y

). 

Jo 

*  = 

Amplitude at the Gaussian center. 

 x

     = 

x

 location of pixel. 

*    = 

x

 location of the Gaussian center. 

wx 

*  = 

Horizontal width at 1/e² of energy. 

 y

     = 

y

 location of pixel. 

 *   = 

y

 location of the Gaussian center. 

wy 

*  = 

Vertical width at 1/e² of energy. 

 

Parameters marked with an asterisk (*) are the variables fitted. 

 

The univariate normal equation is used to fit data in one direction.  The definition of the equation and 

the displayed results are shown below: 
for the X or Major axis 

2

2

/

2













−

−

=

 

 

Where: 

J

     = 

Amplitude at the point 

M

.  

J

M

*

   

= 

Amplitude at the Gaussian center.  

 

M     

= 

Location of pixel.  

     = 

location of the Gaussian center.  

w

M

*   = 

Width at 1/e² of energy.  

 

Operator’s Manual 

 

LBA-PC 

 

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