Keywords
Digital filters (Mathematics), Signal processing -- Digital techniques
Abstract
This research report is devoted to an investigation of finite impulse response (FIR) filters and their implementation via windowing techniques. Analysis is restricted to those FIR filters that possess both a nonrecursive structure and a linear phase response. Initially an informative yet concise overview of FIR filters is presented. Some knowledge of "discrete – time" systems is assumed. Next, the concepts associated with FIR filter implementation through the utilization of window functions is developed. Analysis is performed in both the time and frequency domains. Results obtained define optimal window function criteria. The last design technique is devoted to computer aided FIR filter design via windows. The purpose of this section is to demonstrate the advantages of using the computer to solve the FIR filter – window design problem. An example problem supplements this section. Conclusions, along with a brief summary are documented.
Notes
If this is your thesis or dissertation, and want to learn how to access it or for more information about readership statistics, contact us at STARS@ucf.edu
Graduation Date
1984
Semester
Summer
Advisor
Simons, Fred O.
Degree
Master of Science (M.S.)
College
College of Engineering
Degree Program
Engineering
Format
Pages
97 p.
Language
English
Rights
Public Domain
Length of Campus-only Access
None
Access Status
Masters Thesis (Open Access)
Identifier
DP0015934
STARS Citation
Horrigan, Thomas J., "Finite Impulse Response Filter Implementation via Windowing Technique" (1984). Retrospective Theses and Dissertations. 4712.
https://stars.library.ucf.edu/rtd/4712
Contributor (Linked data)
Simons, Fred O. [VIAF]
University of Central Florida. College of Engineering [VIAF]
Accessibility Status
Searchable text