GP 265/ EE355
Homework Set No. 5
Handout : #21
Due Wednesday, Feb 12, by 5:00 PM in box outside my office, or in class.
Focused SAR processor
1. Consider a radar with the following parameters:
Range m
GP265/EE355
Handout #35
Homework #8
Final Pt. 2
Due Wednesday, March 5, by 4:00 PM in box outside my office, or in class.
When you processed the first channel of data from the unknown radar system, yo
GP265/EE355
Handout #29
Homework #7
Final Pt. 1
Due Wednesday, Feb. 26, by 4:00 PM in box outside my office, or in class.
For the remainder of the term we will be combining homework assignments and
th
GP265/EE355
Handout #26
Homework #6
Due Wednesday, Feb. 19, by 4:00 PM in box outside my office, or in class.
1. Write an autofocus program to implement the sub-aperture shift algorithm.
Use a 1-D ima
Handout # 4
GP265/EE355 (Winter 2013-14)
HOMEWORK SET NO. 1
Due:
1)
January 15 by 4:30 pm
a) Using a spread sheet of the form given in Handout no. 3, page 11, calculate the signal to noise
ratio for t
GP265/EE355
Handout #41
Homework #9
Final Pt. 3
Due Wednesday, March 12, by 12:00 PM (noon) in box outside my office, or in
class.
You have derived an offset field and found the baseline components fr
GP265/EE355
Handout #13
Homework #3
Due Wednesday, Jan. 29, by 4:00 PM in box outside my office, or in class.
1. Consider a chirp signal with the following parameters:
Chirp slope:
Pulse length:
Sampl
GP265/EE355
Handout #18
Homework #4
Due Wednesday, Feb. 5, by 4:00 PM in box outside my office, or in class.
1. Download the data file ersdata.hw4 from the class web page. The format is the
same as in
GP265/EE355
Handout #8
Homework #2
Due Wednesday, January 22, by 4:00 PM in box outside my office, or in class.
1) Chirp compression. In the computer, create a data record consisting of 2048 complex
s