| DSP for MATLAB(TM) and LabVIEW(TM) III: Digital Filter Design Contributor(s): Isen, Forester W. (Author) |
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ISBN: 1598298968 ISBN-13: 9781598298963 Publisher: Morgan & Claypool OUR PRICE: $56.95 Product Type: Paperback - Other Formats Published: January 2009 * Not available - Not in print at this time *Annotation: This book is Volume III of the series DSP for MATLAB[ and LabVIEW[. Volume III covers digital filter design, including the specific topics of FIR design via windowed-ideal-lowpass filter, FIR highpass, bandpass, and bandstop filter design from windowed-ideal lowpass filters, FIR design using the transition-band-optimized Frequency Sampling technique (implemented by Inverse-DFT or Cosine/Sine Summation Formulas), design of equiripple FIRs of all standard types including Hilbert Transformers and Differentiators via the Remez Exchange Algorithm, design of Butterworth, Chebyshev (Types I and II), and Elliptic analog prototype lowpass filters, conversion of analog lowpass prototype filters to highpass, bandpass, and bandstop filters, and conversion of analog filters to digital filters using the Impulse Invariance and Bilinear Transform techniques. Certain filter topologies specific to FIRs are also discussed, as are two simple FIR types, the Comb and Moving Average filters. |
| Additional Information |
| BISAC Categories: - Technology & Engineering | Telecommunications - Technology & Engineering | Remote Sensing & Geographic Information Systems - Technology & Engineering | Radar |
| Dewey: 621.382 |
| Series: Synthesis Lectures on Signal Processing |
| Physical Information: 0.51" H x 7.52" W x 9.25" (0.94 lbs) 244 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: This book is Volume III of the series DSP for MATLAB(TM) and LabVIEW(TM). Volume III covers digital filter design, including the specific topics of FIR design via windowed-ideal-lowpass filter, FIR highpass, bandpass, and bandstop filter design from windowed-ideal lowpass filters, FIR design using the transition-band-optimized Frequency Sampling technique (implemented by Inverse-DFT or Cosine/Sine Summation Formulas), design of equiripple FIRs of all standard types including Hilbert Transformers and Differentiators via the Remez Exchange Algorithm, design of Butterworth, Chebyshev (Types I and II), and Elliptic analog prototype lowpass filters, conversion of analog lowpass prototype filters to highpass, bandpass, and bandstop filters, and conversion of analog filters to digital filters using the Impulse Invariance and Bilinear Transform techniques. Certain filter topologies specific to FIRs are also discussed, as are two simple FIR types, the Comb and Moving Average filters. |