Fundamentals of the radiolocation and radionavigation / Stanisław Rosłoniec.

The book presents principles of operation of radar and radionavigation systems. The group of radar systems includes: primary and secondary radiolocations, bistatic and multistatic systems. They are illustrated with relevant examples of calculation and applications. The issues of increasing the range...

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Bibliographic Details
Main Author: Rosłoniec, Stanisław (Author)
Format: eBook
Language:English
Published: Cham : Springer, [2023]
Series:Springer aerospace technology.
Subjects:
Online Access:Click for online access
Table of Contents:
  • Intro
  • Preface
  • Contents
  • About the Author
  • Acronyms
  • List of Figures
  • List of Tables
  • Part I Basics Principles of the Radiolocation
  • 1 Radiolocation and Its Basic Principles
  • 1.1 Standard Radar Systems
  • 1.2 Physical Phenomena Used in Modern Radiolocation
  • 1.3 Distance Measurement Method Using a Pulse Radar
  • 1.4 Short Range Altimeter as an Example of Radars Using Frequency Modulation Signals
  • 1.5 Standard Methods for Determining the Angular Coordinates of Objects
  • References
  • 2 Determining the Object's Position by Radiolocation Methods
  • 2.1 The Direction of Arrival (DOA) Method
  • 2.2 The Time Difference of Arrival (TDOA) Method
  • References
  • 3 Reflective Surface of the Detected Objects with Monostatic and Bistatic Radar Systems
  • 3.1 The Reflective Surface Determined for a Monostatic Primary Radar System
  • 3.2 The Reflection Surface of a Group Object
  • 3.3 Monostatic and Bistatic Reflective Surfaces of the Conductive Sphere
  • 3.4 Radar Cross Section of an Object Determined FSR
  • References
  • 4 Range Equations of Primary and Secondary Radar Systems
  • 4.1 Range Equation of the Primary Radar System
  • 4.2 The Range Equation of the Secondary Radar System
  • References
  • 5 Bistatic Radar Systems
  • 5.1 Main Advantages and Disadvantages of the Bistatic System
  • 5.2 Methods of Determining Object's Position Using Bistatic Radar System
  • 5.3 Range Equation of the Bistatic Radar System
  • 5.4 Searching Space Using the Probe Signal Chasing Method
  • References
  • 6 Multistatic Radar Systems
  • 6.1 The Method of Determining the object's Position Using a Multistatic System with One Transmitter and Four Receivers
  • 6.2 The Method of Determining the Velocity Vector of an Object in 3D Space
  • 6.3 The Simulation Tests Results
  • References
  • 7 Standard Methods for Extending the Range of Radar Station
  • 7.1 Elements of the Radar Signals Theory
  • 7.2 The Additive Reception
  • 7.3 The Correlation Reception
  • References
  • 8 Theoretical Basis of Matched Signal Filtration
  • 8.1 Convolution
  • 8.2 The Transmittance of a Matched Filter to a Given Signal
  • 8.3 Examples of Standard Signals Matched Filters
  • References
  • 9 Filters Matched to the Typical Radar Signals
  • 9.1 Filter Matched to a LFM Signal
  • 9.2 Filters Matched to High Frequency Pulses with Bistate Phase Modulation
  • 9.3 Introduction to a Digital Matched Filtration of Radar Signals
  • 9.4 Matched Filtration in Time Domain
  • 9.5 A Matched Filtration in the Frequency Domain
  • References
  • 10 Basic Methods for Eliminating Spurious Signals
  • 10.1 Basic Methods of Eliminating Signals Reflected from Terrain Obstacles
  • 10.2 Moving Objects' Reflections Elimination Methods
  • References
  • 11 Searching the Three-Dimensional Space with Radar Devices
  • 11.1 The Three-Dimensional Space Observation Methods
  • 11.2 Observation of the Land and Sea Areas with Radar Devices Installed on Board of Aircrafts