Principles of Waveform Diversity and Design

Herausgeber: Wicks, Michael C.; Blunt, Shannon D.; Mokole, Eric L.

• Gebundenes Buch

Produktbeschreibung

This is the first book to discuss current and future applications of waveform diversity and design in subjects such as radar and sonar, communications systems, passive sensing, and many other technologies.

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Produktdetails

• Radar, Sonar and Navigation
• Verlag: Institution of Engineering & Technology
• Seitenzahl: 1228
• Erscheinungstermin: Juni 2011
• Englisch
• Abmessung: 261mm x 187mm x 53mm
• Gewicht: 2600g
• ISBN-13: 9781891121951
• ISBN-10: 1891121952
• Artikelnr.: 29731905

Inhaltsangabe

1. Introduction: A Short History of Waveform Diversity
2. Section A: Waveform Diversity Paradigms
* Chapter 1: Diversity Strategies: Lessons from Natural Systems
* Chapter 2: Distributed and Layered Sensing
* Chapter 3: Waveform Diversity and Sensors as Robots in Advanced
Military Systems
* Chapter 4: Implications of Diversity from a Sensing Point of View
3. Section B: Applications
4. Part I: Multi-mission Systems
* Chapter 5: An Evolutionary Algorithm Approach to Simultaneous
Multi-Mission Radar Waveform Design
* Chapter 6: Interlacing of Non-Uniform Doppler Waveforms and Metric
Space Geometry of Negative Curvature
* Chapter 7: Evolutionary Algorithms Based Sparse Spectrum Waveform
Optimization
* Chapter 8: Intra-Pulse Radar-Embedded Communications
* Chapter 9: Waveform Design for Joint Digital Beamforming Radar and
MIMO Communications Operability
* Chapter 10: A Transform Domain Communication and Jamming Waveform
* Chapter 11: Optimal Space-Time Transmit Signals for Multi-Mode Radar
5. Part II: Long-Range Active Sensing
* Chapter 12: Waveform Diversity and Adaptive Signal Processing to
Improve SBR GMTI Performance Degraded by MEO Antenna Mechanical
Distortions
* Chapter 13: Multidimensional Waveform Encoding for Spaceborne
Synthetic Aperture Radar Remote Sensing
* Chapter 14: Time Reversed Over-The-Horizon Radar
* Chapter 15: Issues with Orthogonal Waveform Use in MIMO HF OTH Radars
6. Part III: Distributed Aperture Sensing
* Chapter 16: Waveform Diversity and Signal Processing Strategies in
Multistatic Radar Systems
* Chapter 17: A Framework for Optimal Code Design for MIMO Radar
* Chapter 18: Space-Time Adaptive Processing for Frequency-Diverse
Distributed Aperture Radars
* Chapter 19: A Novel Waveform Diversity Model for Distributed Aperture
Radars with Consideration on Environment Non-Stationarity
* Chapter 20: Waveform Concepts and Design for Weather Radar Network
* Chapter 21: Waveform Time-Frequency Characterization for Dynamically
Configured Sensor Systems
* Chapter 22: The Role of Coherence in Waveform Design
* Chapter 23: Image Formation and Waveform Design for Distributed
Apertures in Multipath via Gram-Schmidt Orthogonalization
* Chapter 24: Characterization of Diversity Approaches for LFM
Stretch-Processed Waveforms
* Chapter 25: Multi-Waveform Active Sonar Tracking
* Chapter 26: A Comparison of Algorithms for MIMO and Netted Radar
Systems
7. Part IV: Distributed Aperture Communications
* Chapter 27: Coherent Initialization Methods for Adaptive MIMO
Equalizers
* Chapter 28: MIMO Communications Using Offset Modulations
* Chapter 29: Hybrid Acquisition of PN Codes Using Order
Statistics-Based Detection and Antenna Diversity
* Chapter 30: Improved Space-Time Coding for Multiple Antenna
Multicasting
* Chapter 31: Multi-Beam Free-Space Optical Link Using Space-Time
Coding
8. Part V: Remote Sensing
* Chapter 32: Ultra Narrow Band Adaptive Tomographic Algorithm Applied
to Measured Continuous Waveform Radar Data
* Chapter 33: Ultrasound Speckle Reduction in the Complex Wavelet
Domain
* Chapter 34: System-on-Chip RF Sensors for Life and Geo Sciences
9. Part VI: Spectrum Management
* Chapter 35: Spectral Sharing with Radar
* Chapter 36: Improving Spectrum Use While Maintaining Legacy
Compatibility
* Chapter 37: Advanced Waveforms for Software Defined Radar (SDR) to
Suppress Interfering Channels and Provide Isolation Control
* Chapter 38: Spectrally Confined Waveforms for Solid-State Transmit
Modules
* Chapter 39: Non-Interference Limited Multi-Radar Target Detection and
Tracking
* Chapter 40: Waveform Diversity for Adaptive Radar - An Expert System
Approach
* Chapter 41: Electromagnetic Compatibility and Spectrally Cleaner
Waveforms
* Chapter 42: Knowledge Base Technologies for Waveform Diversity and
Electromagnetic Compatibility
10. Section C: Waveform Design
11. Part I: Novel Waveforms
* Chapter 43: Improved Waveforms for Satellite-Borne Precipitation
Radar
* Chapter 44: Hyperband Radar Waveforms
* Chapter 45: Details of the Signal Processing, Simulations and Results
from the Norwegian Multistatic Radar DiMuRa
* Chapter 46: Orthogonal Waveforms for High Resolution Range-Doppler
Target Reflectivity Estimation
* Chapter 47: Noise MIMO Radar
* Chapter 48: Nonlinear Complementary Waveform Sets for Clutter
Suppression
* Chapter 49: Continuous Coded Waveforms for Noise Radar
* Chapter 50: Examples of Ultrawideband Definitions and Waveforms
* Chapter 51: Novel Pulse-Sequences Design Enables Multi-User
Collision-Avoidance Vehicular Radar
* Chapter 52: Interactive Least-Squares Costas Waveforms
* Chapter 53: Complementary Waveforms for Sidelobe Suppression and
Radar Polarimetry
* Chapter 54: Frequency-Coded Signals with Low Sidelobes in Central
Zone of Autocorrelation Function
12. Part II: Chaotic Waveforms
* Chapter 55: Chaotic Waveforms
* Chapter 56: Chaotic Waveform Diversity and Design: Part I -
Motivation
* Chapter 57: Chaotic Waveform Diversity and Design: Part II - Covert
Communications
* Chapter 58: Chaotic Waveform Diversity and Design: Part III -
Receiver Synchronization
* Chapter 59: Radar Signal Analysis and Design Using Frequency
Modulation of Chaotic Signals
13. Part III: Imaging Waveforms
* Chapter 60: Sparse Stepped-Frequency Waveform Design for
Through-the-Wall Radar Imaging
* Chapter 61: Iterative Technique for System Identification with
Adaptive Signal Design
* Chapter 62: Investigation of Non-Traditional Transmit Waveforms for
SAR-Based Target Detection
* Chapter 63: Time-Reversal Waveform Preconditioning for Clutter
Rejection
14. Part IV: Communications
* Chapter 64: Pulse Shapes with Reduced Interference via Optimal
Band-Limited Functions
* Chapter 65: Waveform Design and Diversity for Shallow Water
Environments
* Chapter 66: Capacity Analysis of Spectrally Overlapping
Direct-Sequence Spread Spectrum (DSSS) Channels
* Chapter 67: Coexistent Spectrally Modulated, Spectrally Encoded
(SMSE) Waveform Design Using Optimization Techniques
* Chapter 68: Low-Complexity EPS Scheme for PAPR Reduction in OFDM with
No Transmission of Side Information
* Chapter 69: UWB-IR Interference Mitigation from Wideband IEEE 802.11a
Source Using Frequency Selective Wavelet Packets
* Chapter 70: Non-Binary Spread Spectrum Signals with Good
Delay-Tracking Features for Satellite Positioning
* Chapter 71: Overlay/Underlay Waveform Design for Enhancing Spectrum
Efficiency in Cognitive Radio
* Chapter 72: Frequency Hopping Waveform Diversity for Time Delay
Estimation
* Chapter 73: Robust Frequency Offset Estimation in OFDM Systems
15. Part V: Matched Illumination
* Chapter 74: Waveform Design for Target Class Discrimination with
Closed-Loop Radar
* Chapter 75: Optimal Signal and Jamming Dynamics Embracing Digital
Filter Strictures
* Chapter 76: Information Theoretic Waveform Design for Tracking
Multiple Targets Using Phased Array Radars
* Chapter 77: Polarization Diversity for Detecting Targets in Heavy
Inhomogeneous Clutter
* Chapter 78: Ambiguity Function Analysis of Adaptive Colored-Noise
Radar Waveforms
* Chapter 79: Matched Terrain Processing: Possibilities for Waveform
Diversity Design