OpenStax CNX

Sections
You are here: Home » Content » Multirate Filtering: Filter-Design Exercise in MATLAB

About: Multirate Filtering: Filter-Design Exercise in MATLAB

Module by: Douglas L. Jones, Swaroop Appadwedula, Matthew Berry, Mark Haun, Jake Janovetz, Michael Kramer, Dima Moussa, Daniel Sachs, Brian Wade. E-mail the authors

View the content: Multirate Filtering: Filter-Design Exercise in MATLAB

Metadata

Name: Multirate Filtering: Filter-Design Exercise in MATLAB
ID: m10815
Language: English (en)
Summary: You will design a low-pass finite impulse-response filter using the zero-placement method in MATLAB. The filter can be used as an anti-aliasing and anti-imaging filter in a multirate system.
Subject: Science and Technology
Keywords: anti-aliasing, anti-imaging, downsample, DSP, filter design, MATLAB, multirate, sample-rate compressor, sample-rate expander, upsample, zero-placement
Document Type: -//CNX//DTD CNXML 0.5 plus MathML//EN
License: Creative Commons Attribution License CC-BY 1.0

Authors: Douglas L. Jones (dl-jones@uiuc.edu), Swaroop Appadwedula (appadwed@uiuc.edu), Matthew Berry (mjberry@uiuc.edu), Mark Haun (markhaun@uiuc.edu), Jake Janovetz (jake@janovetz.com), Michael Kramer (kramer@ifp.uiuc.edu), Dima Moussa (dmoussa@uiuc.edu), Daniel Sachs (sachs@uiuc.edu), Brian Wade (bwade@uiuc.edu)
Copyright Holders: Douglas L. Jones (dl-jones@uiuc.edu), Swaroop Appadwedula (appadwed@uiuc.edu), Matthew Berry (mjberry@uiuc.edu), Mark Haun (markhaun@uiuc.edu), Jake Janovetz (jake@janovetz.com), Michael Kramer (kramer@ifp.uiuc.edu), Dima Moussa (dmoussa@uiuc.edu), Daniel Sachs (sachs@uiuc.edu), Brian Wade (bwade@uiuc.edu)
Maintainers: Mark Butala (butala@uiuc.edu), Matthew Berry (mjberry@uiuc.edu), Robert Morrison (rlmorris@uiuc.edu)

Latest version: 2.6 (history)
First publication date: Aug 14, 2002 12:00 am -0500
Last revision to module: Feb 25, 2004 12:48 pm -0600

Downloads

PDF: m10815_2.6.pdf PDF file, for viewing content offline and printing. Learn more.
EPUB: m10815_2.6.epub Electronic publication file, for viewing in handheld devices. Learn more.
XML: m10815_2.6.cnxml XML that defines the structure and contents of the module, minus any included media files. Can be reimported in the editing interface. Learn more.
Source Export ZIP: m10815_2.6.zip ZIP containing the module XML plus any included media files. Can be reimported in the editing interface. Learn more.
Offline ZIP: m10815_2.6_offline.zip An offline HTML copy of the content. Also includes XML, included media files, and other support files. Learn more.

Version History

Version: 2.6 Feb 25, 2004 12:48 pm -0600 by Adan Galvan
Changes:
added maintainer

Version: 2.5 Aug 1, 2003 10:34 am -0500 by Elizabeth Gregory
Changes:
Updated to 0.5

Version: 2.4 Sep 21, 2002 12:00 am -0500 by (Unknown)
Changes:
Added paragraph regaring gain.

Version: 2.3 Sep 5, 2002 12:00 am -0500 by (Unknown)
Changes:
added a maintainer

Version: 2.2 Aug 26, 2002 12:00 am -0500 by (Unknown)
Changes:
edited for style and content
edited metadata

Version: 2.1 Aug 19, 2002 12:00 am -0500 by (Unknown)
Changes:
created new module (split old multirate prelab in two)
edited old text for style and content
edited metadata

Version: 2.0 Aug 14, 2002 12:00 am -0500 by (Unknown)
Changes:
Added initial template for new module m10815

How to Reuse and Attribute This Content

If you derive a copy of this content using a OpenStax_CNX account and publish your version, proper attribution of the original work will be automatically done for you.

If you reuse this work elsewhere, in order to comply with the attribution requirements of the license (CC-BY 1.0), you must include

  • the authors' names: Douglas Jones, Swaroop Appadwedula, Matthew Berry, Mark Haun, Jake Janevitz, Michael Kramer, Dima Moussa, Daniel Sachs, Brian Wade
  • the title of the work: Multirate Filtering: Filter-Design Exercise in MATLAB
  • the OpenStax_CNX URL where the work can be found: http://cnx.org/content/m10815/2.6/

See the citation section below for examples you can copy.

How to Cite and Attribute This Content

The following citation styles comply with the attribution requirements for the license (CC-BY 1.0) of this work:

American Chemical Society (ACS) Style Guide:

Jones, D.; Appadwedula, S.; Berry, M.; Haun, M.; Janevitz, J.; Kramer, M.; Moussa, D.; Sachs, D.; Wade, B. Multirate Filtering: Filter-Design Exercise in MATLAB, OpenStax_CNX Web site. http://cnx.org/content/m10815/2.6/, Feb 25, 2004.

American Medical Assocation (AMA) Manual of Style:

Jones D, Appadwedula S, Berry M, et al. Multirate Filtering: Filter-Design Exercise in MATLAB [OpenStax_CNX Web site]. February 25, 2004. Available at: http://cnx.org/content/m10815/2.6/.

American Psychological Assocation (APA) Publication Manual:

Jones, D., Appadwedula, S., Berry, M., Haun, M., Janevitz, J., Kramer, M., Moussa, D., Sachs, D., & Wade, B. (2004, February 25). Multirate Filtering: Filter-Design Exercise in MATLAB. Retrieved from the OpenStax_CNX Web site: http://cnx.org/content/m10815/2.6/

Chicago Manual of Style (Bibliography):

Jones, Douglas, Swaroop Appadwedula, Matthew Berry, Mark Haun, Jake Janevitz, Michael Kramer, Dima Moussa, Daniel Sachs, and Brian Wade. "Multirate Filtering: Filter-Design Exercise in MATLAB." OpenStax_CNX. February 25, 2004. http://cnx.org/content/m10815/2.6/.

Chicago Manual of Style (Note):

Douglas Jones and others, "Multirate Filtering: Filter-Design Exercise in MATLAB," OpenStax_CNX, February 25, 2004, http://cnx.org/content/m10815/2.6/.

Chicago Manual of Style (Reference, in Author-Date style):

Jones, D., Appadwedula, S., Berry, M., Haun, M., Janevitz, J., Kramer, M., Moussa, D., Sachs, D., & Wade, B. 2004. Multirate Filtering: Filter-Design Exercise in MATLAB. OpenStax_CNX, February 25, 2004. http://cnx.org/content/m10815/2.6/.

Modern Languages Association (MLA) Style Manual:

Jones, Douglas, Swaroop Appadwedula, Matthew Berry, Mark Haun, Jake Janevitz, Michael Kramer, Dima Moussa, Daniel Sachs, and Brian Wade. Multirate Filtering: Filter-Design Exercise in MATLAB. OpenStax_CNX. 25 Feb. 2004 <http://cnx.org/content/m10815/2.6/>.