| Description |
1 online resource (xiv, 411 pages) : illustrations |
| Contents |
1. Introduction -- 1.1. Basic Relationships: Range-Delay and Velocity-Doppler -- 1.2. Accuracy, Resolution, and Ambiguity -- 1.3. Environmental Diagram -- 1.4. Other Trade-Offs and Penalties in Waveform Design -- 1.5. Concluding Comments -- 2. Matched Filter -- 2.1. Complex Representation of Bandpass Signals -- 2.2. Matched Filter -- 2.3. Matched Filter for a Narrow Bandpass Signal -- 2.4. Matched-Filter Response to Its Doppler-Shifted Signal -- 3. Ambiguity Function -- 3.1. Main Properties of the Ambiguity Function -- 3.2. Proofs of the AF Properties -- 3.3. Interpretation of Property 4 -- 3.4. Cuts Through the Ambiguity Function -- 3.5. Additional Volume Distribution Relationships -- 3.6. Periodic Ambiguity Function -- 3.7. Discussion -- Appendix 3A. MATLAB Code for Plotting Ambiguity Functions -- 4. Basic Radar Signals -- 4.1. Constant-Frequency Pulse -- 4.2. Linear Frequency-Modulated Pulse -- 4.3. Coherent Train of Identical Unmodulated Pulses -- 5. Frequency-Modulated Pulse -- 5.1. Costas Frequency Coding -- 5.2. Nonlinear Frequency Modulation -- Appendix 5A. MATLAB Code for Welch Construction of Costas Arrays -- 6. Phase-Coded Pulse -- 6.1. Barker Codes -- 6.2. Chirplike Phase Codes -- 6.3. Asymptotically Perfect Codes -- 6.4. Golomb's Codes with Ideal Periodic Correlation -- 6.5. Ipatov Code -- 6.6. Optimal Filters for Sidelobe Suppression -- 6.7. Huffman Code -- 6.8. Bandwidth Considerations in Phase-Coded Signals -- 6.9. Concluding Comments -- Appendix 6A. Galois Fields -- Appendix 6B. Quadriphase Barker 13 -- Appendix 6C. Gaussian-Windowed Sinc |
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7. Coherent Train of LFM Pulses -- 7.1. Coherent Train of Identical LFM Pulses -- 7.2. Filters Matched to Higher Doppler Shifts -- 7.3. Interpulse Weighting -- 7.4. Intra- and Interpulse Weighting -- 7.5. Analytic Expressions of the Delay-Doppler Response of an LFM Pulse Train with Intra- and Interpulse Weighting -- 8. Diverse PRI Pulse Trains -- 8.1. Introduction to MTI Radar -- 8.3. Diversifying the PRI on a Dwell-to-Dwell Basis -- 9. Coherent Train of Diverse Pulses -- 9.1. Diversity for Recurrent Lobes Reduction -- 9.2. Diversity for Bandwidth Increase: Stepped Frequency -- 9.3. Train of Complementary Pulses -- 9.4. Train of Subcomplementary Pulses -- 9.5. Train of Orthogonal Pulses -- Appendix 9A. Generating a Numerical Stepped-Frequency Train of LFM Pulses -- 10. Continuous-Wave Signals -- 10.1. Revisiting the Periodic Ambiguity Function -- 10.2. PAF of Ideal Phase-Coded Signals -- 10.3. Doppler Sidelobe Reduction Using Weight Windows -- 10.4. Creating a Shifted Response in Doppler and Delay -- 10.5. Frequency-Modulated CW Signals -- 10.6. Mixer Implementation of an FM CW Radar Receiver -- Appendix 10A. Test for Ideal PACF -- 11. Multicarrier Phase-Coded Signals -- 11.1. Multicarrier Phase-Coded Signals with Low PMEPR -- 11.2. Single MCPC Pulse -- 11.3. CW (Periodic) Multicarrier Signal -- 11.4. Train of Diverse Multicarrier Pulses -- 11.5. Summary -- Appendix. Advanced MATLAB Programs -- A.1. Ambiguity Function Plot with a GUI -- A.2. Creating Complex Signals for Use with ambfn1.m or ambfn7.m -- A.3. Cross-Ambiguity Function Plot -- A.4. Generating a CW Periodic Signal with Weighting on Receive |
| Summary |
"A text and general reference on the design and analysis of radar signals. As radar technology evolves to encompass a growing spectrum of applications in military, aerospace, automotive, and other sectors, innovations in digital signal processing have risen to meet the demand. Presenting a long overdue, up-to-date, dedicated resource on radar signals, the authors fill a critical gap in radar technology literature. Radar Signals features in-depth coverage of the most prevalent classical and modern radar signals used today, as well as new signal concepts developed in recent years. Inclusion of key MATLAB software codes throughout the book demonstrates how they dramatically simplify the process of describing and analyzing complex signals. Topics covered include: *Matched filter and ambiguity function concepts *Basic radar signals, with both analytical and numerical analysis *Frequency modulated and phase-coded pulses *Complete discussion of band-limiting schemes *Coherent LFM pulse trains-the most popular radar signal *Diversity in pulse trains, including stepped frequency pulses *Continuous-wave signals *Multicarrier phase-coded signals. Combining lucid explanation, preferred signal tables, MATLAB codes, and problem sets in each chapter, Radar Signals is an essential reference for professionals-and a systematic tutorial for any seeking to broaden their knowledge base in this dynamic field."--Publisher's description |
| Analysis |
Handbooks |
| Bibliography |
Includes bibliographical references and index |
| Notes |
Online resource and print version record. IEEE Xplore (viewed September 17, 2014) |
| Subject |
Radar.
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Radar
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radar.
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TECHNOLOGY & ENGINEERING -- Radar.
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Radar
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Radar.
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Radar.
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| Genre/Form |
Electronic books
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| Form |
Electronic book
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| Author |
Mozeson, Eli, author
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| ISBN |
9780471663089 |
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0471663085 |
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9780471663072 |
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0471663077 |
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9781601195852 |
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1601195850 |
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