Radar Systems and Radio AIDS to Navigation 1st Edition by A K Sen, A B Bhattacharya ISBN 1683921186 9781683921189 by A. K. Sen, A. B. Bhattacharya 9781683921189, 1683921186 instant download after payment.

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ISBN 10: 1683921186 
ISBN 13: 9781683921189
Author: A K Sen, A B Bhattacharya

Radar Systems and Radio AIDS to Navigation 1st Table of contents:

Chapter 1: Navigation
1.1 Introduction
1.2 Navigational Parameters
1.3 Types of Navigational Aids
Chapter 2: Antennas for Radio Navigational Aids
2.1 Introduction
2.2 Antenna Parameters
2.3 Current Distribution
2.4 Half-Wave Dipole
2.5 Antennas of Length Greater than Half-wave Length
2.6 Parasitic Elements to Increase Directivity
2.7 Folded Dipole
2.8 Parabolic Reflector
2.9 Receiving Antenna
2.10 Microwave Antenna
2.11 Horn Antenna
2.12 Antenna as an Aperture
2.13 One-Dimensional Aperture Distribution
2.14 Circular Aperture
2.15 Parabolic Reflector Antenna
2.16 Lens Antennas
2.17 Pattern Synthesis
2.18 Fourier Integral Synthesis
2.19 Errors in Radiation Patterns
2.20 Cosecant-Squared Antenna Pattern
2.21 Stabilization of Antennas
2.22 Design of Parabolic Reflector Radar Antennas
2.23 Radiation Pattern of a Parabolic Reflector Type Antenna
2.24 Design of Parabolic Reflector Antennas
2.25 Tolerance of Reflectors
2.26 Phase Error Due to Tolerance and Its Effect on Directivity
2.27 Design of the Feeds of Parabolic Reflector Antennas
2.28 Different Types of Feeds
2.29 Dipole Feed
2.30 Waveguide Feeding Method for a Dipole Feed
2.31 Cutler Dual Aperture Feed
2.32 Waveguide Horn Feeds
2.33 Monopulse Feeds
Chapter 3: Principles of Radar
3.1 Introduction
3.2 Radar Equation
3.3 Radar Frequencies
3.4 Radar Set
3.5 Radar Applications
3.6 Receiver Noise
3.7 Signal to Noise Ratio
3.8 Transmitter Power
3.9 Pulse Repetition Frequency
3.10 Pulse Duration
3.11 Propagation Effects
3.12 Scanning Radars
3.13 Tracking Radar
3.14 Lobe Switching
3.15 Conical Scan
3.16 Monopulse Tracking
3.16.1 Millimeter Wave Tracking Radars
3.17 Accuracy of Radar Measurements in the Presence of Noise
3.17.1 Effect of Pulse Shape on Signal-to-Noise Ratio
3.17.2 Effect of Gating Waveform on Range Accuracy
3.17.3 Accuracy Doppler-Velocity Measurement
3.17.4 Accuracy of Angular Position Measurement
3.17.5 Response of a Matched Filter and an Ambiguity Diagram
Chapter 4: Radar Targets
4.1 Introduction
4.2 Radar Cross Section
4.2.1 The Rayleigh Region
4.2.2 The Mie Region
4.2.3 The Optical Region
4.2.4 Features in Rayleigh, Mie, and Optical Regions
4.3 Back Scatter Cross Section
4.4 Polarization Scattering Matrix
4.5 Complex Targets
4.6 Cross Section Fluctuations
4.7 Frequency Agility Effects on Target Detection and Tracking
4.8 Radar Cross Section Measurements
4.9 RCS Measurement Systems
4.10 Problems in RCS Measurement
4.11 Sensitivity of RCS Measurement
4.12 Compact Range RCS Measurement
4.13 Instrumentation Radars for RCS Measurement
4.13.1 CW Radar
4.13.2 FM-CW Radar
4.13.3 Gated CW Radar
4.13.4 Pulse Radar
Chapter 5: Radar Transmitters and Receivers
5.1 Introduction
5.2 The Magnetron Oscillator
5.2.1 Performance Chart and Rieke Diagram
5.2.2 Principle of Operation of a Magnetron
5.3 Klystron Amplifiers
5.3.1 Three-Cavity Klystron
5.3.2 Reflex Klystrons
5.4 Traveling Wave Tube Amplifiers
5.5 Crossed-Field Amplifiers
5.5.1 Amplitron
5.6 Modulators
5.7 Solid State Transmitters
5.8 Noise Figure of a Receiver
5.9 Mixers
5.10 Displays
5.11 Duplexers
5.12 Matched Filter Receiver
5.13 Correlation Detection
5.14 Constant False Alarm Rate (CFAR) Receiver
5.15 Receiver Protector and Sensitivity Time Control
Chapter 6: Propagation of Radar Waves
6.1 Introduction
6.2 Propagation on Plane Earth
6.2.1 The Effect of Earth’s Curvature
6.3 Refraction
6.4 Diffraction
6.5 Anomalous Propagation
6.5.1 Elevated Duct
6.5.2 Evaporation Duct
6.6 Attenuation Due to Atmospheric Gases
6.7 Environmental Noise
6.7.1 Solar Noise
6.7.2 Cosmic Noise
6.7.3 Atmospheric Absorption Noise
6.7.4 Atmospherics and Urban Noise
6.7.5 System Noise Temperature
6.8 Microwave Radiation Hazards
Chapter 7: Radar Clutter
7.1 Introduction
7.2 Surface Clutter Radar Equations
7.3 Sea Clutter
7.3.1 Theory
7.3.2 Probability Density Function of Sea Clutter
7.3.3 Properties of Sea Clutter
7.4 Land Clutter
7.4.1 Examples
7.4.2 Applications
7.4.3 Frequency Dependence
7.4.4 Properties of Land Clutter
7.5 Effects of Weather on Radar
7.5.1 Radar Equation for Meteorological Echoes
7.5.2 Scattering from Rain
7.5.3 Scattering from Snow
7.5.4 Attenuation by Precipitation
7.5.5 Scattering from Clouds
7.6 Angel Echoes
Chapter 8: MTI Radar
8.1 Introduction
8.2 Operation of MTI Radar
8.3 MTI Receiver with Delay Line Canceler
8.3.1 Response of the Delay Line Canceler
8.3.2 Blind Speeds
8.3.3 Double Cancellation
8.3.4 Transversal Filter
8.4 Multiple or Staggered Pulse Repetition Frequencies
8.5 Range-Gated Doppler Filters
8.6 Digital Signal Processing
8.6.1 Example of an MTI Radar Processor
8.7 MTI from a Moving Platform
8.8 Limitations to MTI Performance
Chapter 9: Modern Radars
9.1 Introduction to Pulse Doppler Radar
9.2 Block Diagram
9.3 Detection of Multiple Targets Moving with Different Velocities
9.4 Coherent Integration
9.5 Applications
9.6 Advantages of Pulse Doppler Radar
9.7 Introduction to Frequency Coded Radars
9.8 Block Diagram
9.9 Discrete Frequency Waveform Coding
9.10 Side Lobe Reduction by Weighted Amplitude of the Frequency-Coded Waveform
9.11 Matched Filter Realization for Pulse Compression
9.12 Waveform Analysis of a Linear-Stepped Frequency Pulse
9.13 Applications of Frequency-Coded Radars
9.14 Introduction to Phase-Coded Radars
9.15 Phase Coding and Decoding
9.16 Block Diagram of Phase-Coded CW Radar
9.17 Decoders
9.18 Cross-Correlators and Trackers
9.19 Range Trackers
9.20 Comparison of Phase-Code and Linear FM Pulse Compressions
9.21 Introduction to Millimeter Wave Radars
9.22 Propagation of Millimeter Wave Radars
9.23 Military Radars
9.24 Anti-Aircraft Weapons Systems
9.25 Missile Guidance and Seeker Systems
9.26 Beam Rider
9.27 Missile Seeker
9.28 Configurations of Missile Seeker Sensors
9.29 FMCW Sensor
9.30 Radiometric Sensor
9.31 Power Sources for Millimeter Wave Radars
9.32 Jamming and Anti-Jamming Techniques
9.33 Electronic Counter Measures
9.34 Electronic Counter Counter Measure
9.35 Repeater Jamming and ECCM

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Tags: A K Sen, A B Bhattacharya, Radar, Navigation