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<math>e^{x[n+k]} = e^{x[n+k]}</math>
 
<math>e^{x[n+k]} = e^{x[n+k]}</math>
  
<math>\there4</math>
+
<math>\there4{a}</math>

Revision as of 18:41, 8 September 2008

Definition: Time Invariance

A system is time invariant if any input that is first shifted and then put through the system yields the same result as putting the signal through the system first and then shifting the output, provided the magnitude of the shift is the same in both instances.

Example 1: Time-Invariant System

$ y[n] = e^{x[n]} $


Let

$ z[n] = x[n+k] $

$ a = n + k $


$ y[z[n]] $ =?= $ y[a] $

$ y[x[n+k]] $ =?= $ e^{x[a]} $

$ e^{x[n+k]} = e^{x[n+k]} $

$ \there4{a} $

Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva