Jodi S. Hodge: Difference between revisions
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ASN7 - Finish the practice tests |
ASN7 - Finish the practice tests |
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[[ASN8 - |
[[ASN8 - FIR filters]] |
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[[ASN9 - Decimating filter]] |
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[[ASN9 - Add to #8 writeup how to do a decimating filter and figure out how many multiply & adds are needed for a n/2 decimating low pass filter.]] |
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[[ASN10 - Frequency response of low pass filters ]] |
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[[ASN10 - Use Octave (or Mathlab or Silab) to plot the frequency response of low pass filters with cut off frequencies of 1/32T, 1/8T, and 1/4T and compare how many coeffficients are needed with an eye to answer the question ]] Is it less calculation to decimate and then filter, or better to put the filter in the pre-decimation filter? |
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[[ASN11 - |
[[ASN11 - Our method versus Mark Flower's]] |
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Revision as of 10:48, 10 November 2010
Wiki Page
This page was created as an assignment in ENGR455 Signals and Systems. The purpose of this page is to enable easy viewing by others of my completed homework assignments and easy peer reviewing. See web page for further details on topics.
Personal Background
I love going to the beach and especially love tanning right before I return to College Place. I love animals of all sorts but dearly dogs, cats, and parrots. I wish I could always speak in my West Indian dialect unfortunately, it is much too difficult for people to understand. This is my last quarter attending WWU to recieve my BS in EE. Thereafter, I plan to return to the Virgin Islands for employment in this career field.
Contact Information
Cell: 340-998-9369
Home: 509-524-6785
Email: jodi_montoute@yahoo.com
Class Schedule
Homework
ASN3 - Show graphically that the exponential funtion shifted equals to the delta function shifted
ASN4 - Given a linear time-invariant system where produces an output , find the output due to any function
ASN5 - Find and relate it to the Laplace Transform. Derive the Inverse Laplace Transform of this from the inverse Fourier Transform.
![{\displaystyle {\mathcal {F}}[e^{-\sigma t}x(t)u(t)]}](https://wikimedia.org/api/rest_v1/media/math/render/svg/fff13c3c7a479f107c9e90e0aed1908dd4a969ce)
ASN6 - Pick a property of the Fourier Transform & present it on the Wiki. Make a table with all your properties. Interpret your property.
ASN7 - Finish the practice tests