Forward scatter radar

Marina Gashinova; Liam Daniel; Alexander Myakinkov; Mikhail Cherniakov

doi:10.1049/SBRA512F_ch13

Forward scatter radar

Marina Gashinova, Liam Daniel, Alexander Myakinkov, Mikhail Cherniakov

Electronic, Electrical and Systems Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Forward scatter radar (FSR) is historically thought of as the first type of bistatic radar. Research on FSR has been predominantly focussed on its ability to serve as an electronic fence, and it has already proven the FSR’s excellent detection and target motion parameter estimation capabilities. Recently, a wave of interest has emerged in FSR; first, this is a consequence of the introduction of `stealth’ targets. These targets have a significantly reduced radar cross-section (RCS) because of their specific shapes and/or coatings which may greatly suppress backscattering, yet their shadows will still render them perfectly `visible’ to FSR. Second, interest in FSR has appeared because of the establishment of passive coherent location concepts where illuminators of opportunity are used to form a bistatic radar network. This chapter provides an overview of FSR, theory and phenomenology and further discusses its capabilities and limitations.

Original language	English
Title of host publication	Novel Radar Techniques and Applications
Publisher	Institution of Engineering and Technology (IET)
Pages	563-619
Number of pages	57
ISBN (Electronic)	9781613532256
DOIs	https://doi.org/10.1049/SBRA512F_ch13
Publication status	Published - 1 Jan 2018

Bibliographical note

Publisher Copyright:
© The Institution of Engineering and Technology 2018.

Keywords

Backscattering suppression
Bistatic radar network
Electromagnetic wave propagation
Electromagnetic wave scattering
Electronic fence
Forward scatter radar
FSR
Image and video signal processing
Motion estimation
Optical
Passive coherent location
Radar cross-section
Radar cross-sections
Radar theory
RCS
Stealth targets
Target motion parameter estimation

ASJC Scopus subject areas

General Engineering

Access to Document

10.1049/SBRA512F_ch13

Cite this

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title = "Forward scatter radar",

abstract = "Forward scatter radar (FSR) is historically thought of as the first type of bistatic radar. Research on FSR has been predominantly focussed on its ability to serve as an electronic fence, and it has already proven the FSR{\textquoteright}s excellent detection and target motion parameter estimation capabilities. Recently, a wave of interest has emerged in FSR; first, this is a consequence of the introduction of `stealth{\textquoteright} targets. These targets have a significantly reduced radar cross-section (RCS) because of their specific shapes and/or coatings which may greatly suppress backscattering, yet their shadows will still render them perfectly `visible{\textquoteright} to FSR. Second, interest in FSR has appeared because of the establishment of passive coherent location concepts where illuminators of opportunity are used to form a bistatic radar network. This chapter provides an overview of FSR, theory and phenomenology and further discusses its capabilities and limitations.",

keywords = "Backscattering suppression, Bistatic radar network, Electromagnetic wave propagation, Electromagnetic wave scattering, Electronic fence, Forward scatter radar, FSR, Image and video signal processing, Motion estimation, Optical, Passive coherent location, Radar cross-section, Radar cross-sections, Radar theory, RCS, Stealth targets, Target motion parameter estimation",

author = "Marina Gashinova and Liam Daniel and Alexander Myakinkov and Mikhail Cherniakov",

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doi = "10.1049/SBRA512F_ch13",

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AU - Daniel, Liam

AU - Myakinkov, Alexander

AU - Cherniakov, Mikhail

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PY - 2018/1/1

Y1 - 2018/1/1

N2 - Forward scatter radar (FSR) is historically thought of as the first type of bistatic radar. Research on FSR has been predominantly focussed on its ability to serve as an electronic fence, and it has already proven the FSR’s excellent detection and target motion parameter estimation capabilities. Recently, a wave of interest has emerged in FSR; first, this is a consequence of the introduction of `stealth’ targets. These targets have a significantly reduced radar cross-section (RCS) because of their specific shapes and/or coatings which may greatly suppress backscattering, yet their shadows will still render them perfectly `visible’ to FSR. Second, interest in FSR has appeared because of the establishment of passive coherent location concepts where illuminators of opportunity are used to form a bistatic radar network. This chapter provides an overview of FSR, theory and phenomenology and further discusses its capabilities and limitations.

AB - Forward scatter radar (FSR) is historically thought of as the first type of bistatic radar. Research on FSR has been predominantly focussed on its ability to serve as an electronic fence, and it has already proven the FSR’s excellent detection and target motion parameter estimation capabilities. Recently, a wave of interest has emerged in FSR; first, this is a consequence of the introduction of `stealth’ targets. These targets have a significantly reduced radar cross-section (RCS) because of their specific shapes and/or coatings which may greatly suppress backscattering, yet their shadows will still render them perfectly `visible’ to FSR. Second, interest in FSR has appeared because of the establishment of passive coherent location concepts where illuminators of opportunity are used to form a bistatic radar network. This chapter provides an overview of FSR, theory and phenomenology and further discusses its capabilities and limitations.

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KW - Electromagnetic wave propagation

KW - Electromagnetic wave scattering

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KW - Forward scatter radar

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KW - Image and video signal processing

KW - Motion estimation

KW - Optical

KW - Passive coherent location

KW - Radar cross-section

KW - Radar cross-sections

KW - Radar theory

KW - RCS

KW - Stealth targets

KW - Target motion parameter estimation

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BT - Novel Radar Techniques and Applications

PB - Institution of Engineering and Technology (IET)

ER -

Forward scatter radar

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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