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Grading format:   
 
Grading format:   
 
<br>Similar to the grading format of HW1, HW2 is graded for completeness as well as theoretical understanding of course material.
 
<br>Similar to the grading format of HW1, HW2 is graded for completeness as well as theoretical understanding of course material.
 +
 +
Correction to original solution Q3:
 +
<br>
 +
The graph for x[n-k] should be 0 at n, and 1's from n+1 to n+10
 +
<br>The correct solution (as Kim described) is as follows:
 +
<br>y[n]=0 for n<-10
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<br>y[n]=n+11 for -10<=n<=-1
 +
<br>y[n]=9-n for 0<=n<=8
 +
<br>y[n]=0 for n>8
  
 
<br>Comments:
 
<br>Comments:

Latest revision as of 07:36, 10 February 2009


Grading format:
Similar to the grading format of HW1, HW2 is graded for completeness as well as theoretical understanding of course material.

Correction to original solution Q3:
The graph for x[n-k] should be 0 at n, and 1's from n+1 to n+10
The correct solution (as Kim described) is as follows:
y[n]=0 for n<-10
y[n]=n+11 for -10<=n<=-1
y[n]=9-n for 0<=n<=8
y[n]=0 for n>8


Comments:
- In Q2, $ (-1)^n = e^{j\pi n} $.
- When computing the DTFT using the summation formula, note that some expressions are in the form of geometric series.
- In Q3, convolution must be separated into various cases. The analytical expression will vary depending on the case. Also, drawing the signals is very helpful.

Alumni Liaison

has a message for current ECE438 students.

Sean Hu, ECE PhD 2009