(New page: ==My Definition== A system is time invariant if the system and a time delay are commutive. system + time delay = time delay + system. ==Time Invariant Example== <math>y(t)=5x(t)</math>...)
 
 
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==My Definition==
 
==My Definition==
  
A system is time invariant if the system and a time delay are commutive.
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A system is time invariant if the system and a time delay are commutative.
  
 
system + time delay = time delay + system.
 
system + time delay = time delay + system.

Latest revision as of 13:34, 12 September 2008

My Definition

A system is time invariant if the system and a time delay are commutative.

system + time delay = time delay + system.

Time Invariant Example

$ y(t)=5x(t) $

then

$ x(t)=t+4 $ yields $ y(t)=5(t+4)=5t+20 $ through a time delay of $ t_0 $ yields $ Z(t)=y(t-t_0)=5(t-t_0)+20 $

now switching the order,

$ x(t)=t+4 $ through a time delay of $ t_0 $ yields $ x(t-t_0)=(t-t_0)+4 $ now this input signal through the system yields $ y(t)=5((t-t_0)+4)=5(t-t_0)+20 $

the results of the two ways are the same. i.e. Time invariant.

non-time invariant

$ y(t)=t*cos(x(t)) $

with input $ x(t)=t $

1) System then delay

$ x(t)=t $ yields $ y(t)=tcos(t) $ through a time delay y(t) becomes $ y(t)=(t-t_0)*cos(t-t_0) $

2) delay then system

$ x(t)=t $ through a time delay becomes $ x(t)=t-t_0 $ now through the system, $ y(t)=tcos(t-t_0) $

$ (t-t_0)cos(t-t_0)\not=tcos(t-t_0) $, so not time invariant.

Alumni Liaison

has a message for current ECE438 students.

Sean Hu, ECE PhD 2009