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  where C is a closed counterwise countour inside the ROC of the Z- transform and around the origin.
 
  where C is a closed counterwise countour inside the ROC of the Z- transform and around the origin.
  
             <math> = \sum_{poles  a_i ( X(Z) Z ^ (n-1))}   Residue ( X(Z) Z ^ (n-1)) \ </math>
+
             <math> = \sum_{poles  a_i ( X(Z) Z ^ (n-1))} Residue ( X(Z) Z ^ (n-1)) \ </math>
             <math> = \sum_{poles  a_i}</math>
+
             <math> = \sum_{poles  a_i ( X(Z) Z ^ (n-1))} Coefficient of degree (-1) term on the power series expansion of ( X(Z) Z ^ (n-1)) about a_i \ </math>

Revision as of 04:32, 23 September 2009

                                                  Inverse Z-transform
$  x[n] = \oint_C {X(Z)}{Z ^ (n-1)} , dZ \  $
where C is a closed counterwise countour inside the ROC of the Z- transform and around the origin.
            $  = \sum_{poles  a_i ( X(Z) Z ^ (n-1))}  Residue ( X(Z) Z ^ (n-1)) \  $
            $  = \sum_{poles  a_i ( X(Z) Z ^ (n-1))}  Coefficient of degree (-1) term on the power series expansion of ( X(Z) Z ^ (n-1)) about a_i \  $

Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang