【微网精心制作整理】雷达手册 [第三版-英文版]内含书签|目录
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2008
Description
The standard reference on radar technology completely updated to cover all the
advances of the past seventeen years.
For 17 years Radar Handbook has been the yardstick by which all other radar
books are measured. Covering the entire scope of the field—from basic theory to real
world applications—this trusted resource offers the unmatched expertise of more than
30 world leaders in every major area of radar technology. Complete with five brand
new chapters, the third edition has been thoroughly updated to cover the latest trends
and advances in this dynamic field. Classic chapters from the previous edition have
also been revised by a new generation of radar experts to ensure this edition will
withstand the test of time as efficiently as previous editions have.
From the Back Cover
The Standard Reference on Radar Technology--Completely Revised and
Updated Thoroughly revised to reflect advances made in radar technology over the
past two decades, this third edition of the Radar Handbook will be welcomed by radar
engineers, designers, and technicians the world over. Growth in radar capability and
applications has been-and continues to be--prodigious, and the new material (nearly
75 percent) in this volume reflects that. The handbook covers all the new
developments in radar, as well as the fundamentals, making it the standard reference.
Each of the 25 chapters is written by an expert or experts in the field; more than half
of the authors are new to this edition.
From the Preface
The third edition of the Radar Handbook is evidence that the development and
application of radar for both civilian and military purposes continue to grow in both
utility and in improved technology. Some of the many advances in radar since the
previous edition include the following:
- The extensive use of digital methods for improved signal processing, data processing,
decision making, flexible radar control, and multifunction radar
- Doppler weather radar
- Ground moving target indication, or GMTI
- An extensive experimental database describing low-angle land clutter, as obtained
by MIT Lincoln Laboratory, that replaced the previously widely used clutter model
that dated back to World War II
- The realization that microwave sea echo at low grazing angles is due chiefly to what
are called “sea spikes”
- The active-aperture phased array radar system using solid-state modules, also called
active electronically scanned arrays (AESA), which is attractive for some multifunction
radar applications that need to manage both power and spatial coverage
- Planetary exploration with radar
- Computer-based methods for predicting radar propagation performance in realistic
environments
- Operational use of HF over-the-horizon radar
- Improved methods for detecting moving targets in clutter, including space-time
adaptive processing
- Operational use of inverse synthetic aperture radar for target recognition
- Interferometric synthetic aperture radar, or InSAR, to obtain the height of a resolved
scatterer or to detect moving ground targets as well as provide a SAR image of a
scene
- High precision space-based altimeters, with accuracy of a few centimeters, to
measure the Earth's geoid
- Ultrawideband radar for ground penetrating and similar applications
- Improved high power, wide bandwidth klystron power sources based on clustered
cavity resonators, as well as the multiple-beam klystron
- The appearance of wide bandgap semiconductors that allow better performance
because of high power and high operating temperatures
- The availability of high-power millimeter-wave generators based on the
gyroklystron
- Nonlinear FM pulse compression with low sidelobe levels
- The replacement, by the computer, of the operator as information extractor and
decision maker
With all this and much, much more, including discussions of modern radar
transmitters and receivers not available elsewhere, the Radar Handbook belongs on
the bookshelf of every radar engineer.
Table of Contents
Chapter 1 An Introduction and Overview of Radar (Merrill Skolnik)
1.1 Radar in Brief
1.2 Types of Radars
1.3 Information Available from a Radar
1.4 The Radar Equation
1.5 Radar Frequency Letter-band Nomenclature
1.6 Effect of Operating Frequency on Radar
1.7 Radar Nomenclature
1.8 Some Past Advances in Radar
1.9 Applications of Radar
1.10 Conceptual Radar System Design
Chapter 2 MTI Radar (William W. Shrader and Vilhelm Gregers-Hansen)
2.1 Preface
2.2 Introduction to MTI Radar
2.3 Clutter Filter Response to Moving Targets
2.4 Clutter Characteristics
2.5 Definitions
2.6 Improvement Factor Calculations
2.7 Optimum Design of Clutter Filters
2.8 MTI Clutter Filter Design
2.9 MTI Filter Design for Weather Radars
2.10 Clutter Filter Bank Design
2.11 Performance Degradation Caused by Receiver Limiting
2.12 Radar System Stability Requirements
2.13 Dynamic Range and A/D Conversion Considerations
2.14 Adaptive MTI
2.15 Radar Clutter Maps
2.16 Sensitivity-velocity Control (SVC)
2.17 Considerations Applicable to MTI Radar Systems
Chapter 3 Airborne MTI (James K. Day and Fred M. Staudaher)
3.1 Systems Using Airborne MTI Techniques
3.2 Coverage Considerations
3.3 Airborne MTI Performance Drivers
3.4 Platform Motion and Altitude Effects on MTI Performance
3.5 Platform-motion Compensation Abeam
3.6 Scanning-motion Compensation
3.7 Simultaneous Platform Motion and Scan Compensation
3.8 Platform-motion Compensation, Forward Direction
3.9 Space-time Adaptive Motion Compensation
3.10 Effect of Multiple Spectra
3.11 Example AMTI Radar System
Chapter 4 Pulse Doppler Radar (John P. Stralka and William G. Fedarko)
4.1 Characteristics and Applications
4.2 Pulse Doppler Clutter
4.3 Dynamic-range and Stability Requirements
4.4 Range and Doppler Ambiguity Resoluton
4.5 Mode and Waveform Design
4.6 Range Performance
List of Abbreviations
Chapter 5 Multifunctional Radar Systems for Fighter Aircraft (David Lynch, Jr.
and Carlo Kopp)
5.1 Introduction
5.2 Typical Missions and Modes
5.3 A-A Mode Descriptions & Waveforms
5.4 A-S Mode Descriptions & Waveforms
Chapter 6 Radar Receivers (Michael E. Yeomans)
6.1 The Configuration of a Radar Receiver
6.2 Noise and Dynamic-range Considerations
6.3 Bandwidth Considerations
6.4 Receiver Front End
6.5 Local Oscillators
6.6 Gain Control
6.7 Filtering
6.8 Limiters
6.9 I/Q Demodulators
6.10 Analog-to-Digital Converters
6.11 Digital Receivers
6.12 Diplex Operation
6.13 Waveform Generation and Upconversion
Chapter 7 Automatic Detection, Tracking, and Sensor Integration (W. G. Bath
and G. V. Trunk)
7.1 Introduction
7.2 Automatic Detection
7.3 Automatic Tracking
7.4 Networked Radars
7.5 Unlike-sensor Integration
Chapter 8 Pulse Compression Radar (Michael R. Ducoff and Byron W. Tietjen)
8.1 Introduction
8.2 Pulse Compression Waveform Types
8.3 Factors Affecting Choice of Pulse Compression Systems
8.4 Pulse Compression Implementation and Radar System Examples
Appendix
Chapter 9 Tracking Radar (Dean D. Howard)
9.1 Introduction
9.2 Monopulse (Simultaneous Lobing)
9.3 Scanning and Lobing
9.4 Servosystems for Tracking Radar
9.5 Target Acquisition and Range Tracking
9.6 Special Monopulse Techniques
9.7 Sources of Error
9.8 Target-caused Errors (Target Noise)
9.9 Other External Causes of Error
9.10 Internal Sources of Error
9.11 Summary of Sources of Error
9.12 Error Reduction Techniques
Chapter 10 The Radar Transmitter (Thomas A. Weil and Merrill Skolnik)
10.1 Introduction
10.2 Linear-beam Amplifiers
10.3 Magnetron
10.4 Crossed-field Amplifiers
10.5 Gyrotrons
10.6 Transmitter Spectrum Control
10.7 Grid-controlled Tubes
10.8 Modulators
10.9 Which RF Power Source to Use?
Chapter 11 Solid-State Transmitters (Michael T. Borkowski)
11.1 Introduction
11.2 Advantages of Solid State
11.3 Solid-state Devices
11.4 Designing for the Solid-state Bottle Transmitter
11.5 Designing for the Solid-state Phased Array Transmitter
11.6 Solid-state System Examples
Chapter 12 Reflector Antennas (Michael E. Cooley and Daniel Davis)
12.1 Introduction
12.2 Basic Principles and Parameters
12.3 Reflector Antenna Architectures
12.4 Reflector Feeds
12.5 Reflector Antenna Analysis
12.6 Mechanical Design Considerations
Acknowledgments
Chapter 13 (Joe Frank and John D. Richards)
13.1 Introduction
13.2 Array Theory
13.3 Planar Arrays and Beam Steering
13.4 Aperture Matching and Mutual Coupling
13.5 Low-sidelobe Phased Arrays
13.6 Quantization Effects
13.7 Bandwidth of Phased Arrays
13.8 Feed Networks (Beamformers)
13.9 Phase Shifters
13.10 Solid-state Modules
13.11 Multiple Simultaneous Receive Beams
13.12 Digital Beamforming
13.13 Radiation Pattern Nulling
13.14 Calibration of Active Phased Array Antennas
13.15 Phased Array Systems
Chapter 14 Radar Cross Section (Eugene F. Knott)
14.1 Introduction
14.2 The Concept of Echo Power
14.3 RCS Prediction Techniques
14.4 RCS Measurement Techniques
14.5 Radar Echo Suppression
Chapter 15 Sea Clutter (Lewis B. Wetzel)
15.1 Introduction
15.2 The Sea Surface
15.3 Empirical Behavior of Sea Clutter
15.4 Theories and Models of Sea Clutter
15.5 Summary and Conclusions
Chapter 16 Ground Echo (Richard K. Moore)
16.1 Introduction
16.2 Parameters Affecting Ground Return
16.3 Theoretical Models and Their Limitations
16.4 Fading of Ground Echoes
16.5 Measurement Techniques for Ground Return
16.6 General Models for Scattering Coefficient (Clutter Models)
16.7 Scattering Coefficient Data
16.8 Polarimetry
16.9 Scattering Coefficient Data Near Grazing
16.10 Imaging Radar Interpretation
Chapter 17 Synthetic Aperture Radar (Roger Sullivan)
17.1 Basic Principle of SAR
17.2 Early History of SAR
17.3 Types of SAR
17.4 SAR Resolution
17.5 Key Aspects of SAR
17.6 SAR Image Quality
17.7 Summary of Key SAR Equations
17.8 Special SAR Applications
Chapter 18 Space-Based Remote Sensing Radars (R. Keith Raney)
18.1 Perspective
18.2 Synthetic Aperture Radar (SAR)
18.3 Altimeters
18.4 Planetary Radars
18.5 Scatterometers
18.6 Radar Sounders
Chapter 19 Meteorological Radar (R. Jeffrey Keeler and Robert J. Serafin)
19.1 Introduction
19.2 The Radar Equation for Meteorological Targets
19.3 Design Considerations
19.4 Signal Processing
19.5 Operational Applications
19.6 Research Applications
Chapter 20 HF Over-the-Horizon Radar (James M. Headrick and Stuart J.
Anderson)
20.1 Introduction
20.2 The Radar Equation
20.3 Factors Influencing Skywave Radar Design
20.4 The Ionosphere and Radiowave Propagation
20.5 Waveforms for HF Radar
20.6 The Transmitting System
20.7 Radar Cross Section
20.8 Clutter: Echoes from the Environment
20.9 Noise, Interference, and Spectrum Occupancy
20.10 The Receiving System
20.11 Signal Processing and Tracking
20.12 Radar Resource Management
20.13 Radar Performance Modeling
Appendix: HF Surface Wave Radar
Chapter 21 Ground Penetrating Radar (David Daniels)
21.1 Introduction
21.2 Physics of Propagation in Materials
21.3 Modeling
21.4 Properties of Materials
21.5 GPR Systems
21.6 Modulation Techniques
21.7 Antennas
21.8 Signal and Image Processing
21.9 Applications
21.10 Licensing
Chapter 22 Civil Marine Radar (Andy Norris)
22.1 Introduction
22.2 The Challenges
22.3 International Standards
22.4 Technology
22.5 Target Tracking
22.6 User Interface
22.7 Integration with AIS
22.8 Radar Beacons
22.9 Validation Testing
22.10 Vessel Tracking Services
Appendix The Early Days of CMR
List of Maritime Radar-related Abbreviations
Acknowledgments
Chapter 23 Bistatic Radar (Nicholas J. Willis)
23.1 Concept and Definitions
23.2 Coordinate Systems
23.3 Bistatic Radar Equation
23.4 Applications
23.5 Bistatic Doppler
23.6 Target Location
23.7 Target Cross Section
23.8 Surface Clutter
23.9 Unique Problems and Requirements
Chapter 24 Electronic Counter-Countermeasures (Alfonso Farina)
24.1 Introduction
24.2 Terminology
24.3 Electronic Warfare Support Measures
24.4 Electronic Countermeasures
24.5 Objectives and Taxonomy of ECCM Techniques
24.6 Antenna-related ECCM
24.7 Transmitter-related ECCM
24.8 Receiver-related ECCM
24.9 Signal-processing-related ECCM
24.10 Operational-deployment Techniques
24.11 Application of ECCM Techniques
24.12 ECCM and ECM Efficacy
Acronym List
Acknowledgments
Chapter 25 Radar Digital Signal Processing (James J. Alter and Jeffrey O.
Coleman)
25.1 Introduction
25.2 Receive Channel Processing
25.3 Transmit Channel Processing
25.4 DSP Tools
25.5 Design Considerations
25.6 Summary
Acknowledgments
Chapter 26 The Propagation Factor, Fp, in the Radar Equation (Wayne L.
Patterson)
26.1 Introduction
26.2 The Earth?s Atmosphere
26.3 Refraction
26.4 Standard Propagation
26.5 Anomalous Propagation
26.6 Propagation Modeling
26.7 EM System Assessment Programs
26.8 AREPS Radar System Assessment Model
26.9 AREPS Radar Displays
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