Concepts in systems and signals / John D. Sherrick.
Material type:
TextPublisher: Upper Saddle River, NJ : Prentice Hall, 2004Edition: Second editionDescription: ix, 447 pages : illustrations ; 25 cmContent type: - text
- unmediated
- volume
- 0131782711 (alk. paper)
- 621.3822 22 S.J.C
- TK5102.9 .S5325 2004
| Item type | Current library | Collection | Call number | Status | Date due | Barcode | |
|---|---|---|---|---|---|---|---|
Books
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Main library B3 | Faculty of Engineering & Technology (Electrical) | 621.3822 S.J.C (Browse shelf(Opens below)) | Available | 00011005 |
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| 621.3822 R.K.S Signals and systems / | 621.3822 R.M.S Signals and systems : analysis using transform methods and MATLAB / | 621.3822 S.C.D. Digital signal processing : a hands-on approach / | 621.3822 S.J.C Concepts in systems and signals / | 621.3822 S.S.D Digital signal processing with MATLAB programs / | 621.3822 T.L.D Digital signal processing : fundamentals and applications / | 621.3822 V VLSI design methodologies for digital signal processing architectures / |
Includes index
1. Numbers, Arithmetic, and Mathematics -- The Number System -- Rectangular/Polar Conversions -- Euler's Identity. Complex-Number Arithmetic -- Functions of a Complex Variable -- Indeterminate Values -- Introduction to MATLAB -- 2. Continuous-Time Systems -- System Equations -- The Exponential Signal -- Phasor Transformations -- Transfer Functions -- The Natural Response -- MATLAB Lesson 2 -- 3. Analysis Techniques. Driving Point Impedance -- Circuit Analysis in the s Domain -- Feedback Diagram Elements -- Block Diagram Reduction. Stability Tests -- MATLAB Lesson 3 -- 4. Frequency Response. Resonant Systems: L-C Circuits -- Nonresonant Systems: R-C Circuits -- The Decibel (dB). General Systems: R-L-C Circuits -- MATLAB Lesson 4 -- 5. Standard Filters -- Ideal Filters -- Filter Prototypes-- Denormalization. Filter Transformations. Prototype Circuit Development -- MATLAB Lesson 5. 6. Spectral Analysis. Fourier Series -- Parseval's Theorem -- The Fourier Transform. Windows -- MATLAB Lesson 6 -- Properties of Signals -- 7. Sampled Signals -- Discrete Fourier Transform (DFT) -- Sampled Sinewaves -- Discrete-Time Fourier Transform (DTFT) -- MATLAB Lesson 7 -- Selected DFT Applications -- 8. Discrete-Time Systems -- The z Domain -- Normalized Frequency -- The Difference Equation -- The Transfer Function -- Stability in the z Domain -- MATLAB Lesson 8 -- 9. IIR Filter Design -- Bilinear Transformation. MATLAB Lesson 9. IIR Implementation. 10. FIR Filter Design. FIR from IIR. Symmetric Difference Equations -- Window Designs -- Frequency Sampling --MATLAB Lesson 10 -- 11. Sampling Strategies -- Oversampling and Decimation -- Reconstruction and Interpolation -- Bandpass Sampling --12. Laplace and Z Transform Techniques -- The Laplace Transform -- Laplace Transform Applications -- The z Transform -- z Transform Applications -- Impulse Variance -- Introduction to Control Systems -- MATLAB Lesson 11 -- Appendix A: DSP Hardware -- Appendix B: MATLAB Index -- Appendix C: Answers to the Odd Numbered Problems -- Index.
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