ASN12 - Determine resolution using cross correlation: Difference between revisions
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Jodi.Hodge (talk | contribs) (Created page with ' Return to Homepage == Problem Statement == Is our method the same as Mark Flower's? See Wiki. Same # multiply and adds? See Notes 11/3/10. == Response == …') |
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== Problem Statement == |
== Problem Statement == |
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Experiment with a variety of signals having a 3Khz bandwidth to determine the resolution you can get when doing a cross correlation <math> \ r(m) = |
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Is our method the same as Mark Flower's? See Wiki. Same # multiply and adds? See Notes 11/3/10. |
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\displaystyle\sum\limits_{n=0}^{N-1} x(n) x(n+m) </math>. You can generate the signals randomly and filter them to obtain the band-limited signals. ([[Jodi S. Hodge]]) |
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== Response == |
== Response == |
Revision as of 23:05, 30 November 2010
Problem Statement
Experiment with a variety of signals having a 3Khz bandwidth to determine the resolution you can get when doing a cross correlation . You can generate the signals randomly and filter them to obtain the band-limited signals. (Jodi S. Hodge)
Response
Mark