Cross-eye jamming simulation for a modern radar system

Bennarsten, Axel

Cross-eye jamming simulation for a modern radar system

Mark

Bennarsten, Axel ^LU (2024) BMEM05 20241
Department of Biomedical Engineering

Abstract: In an increasingly hostile world, nations and defense companies are racing to develop new techniques to counter hostile acts. With the Russo–Ukraine war raging in Europe, and with Sweden’s and Finland’s accession into NATO tensions are bound to stay high for the foreseeable future. This thesis explores the cross-eye jamming technique on a simulated modern radar system. The cross-eye jammer creates an apparent spatial phase shift that creates a false lateral displacement of the target. One of the main benefits of the cross-eye jammer is that it actively steers the threat away, rather than just making the skin echo difficult to distinguish. Cross-eye jamming has long been proposed as an effective countermeasure against the angle estimation... (More); In an increasingly hostile world, nations and defense companies are racing to develop new techniques to counter hostile acts. With the Russo–Ukraine war raging in Europe, and with Sweden’s and Finland’s accession into NATO tensions are bound to stay high for the foreseeable future. This thesis explores the cross-eye jamming technique on a simulated modern radar system. The cross-eye jammer creates an apparent spatial phase shift that creates a false lateral displacement of the target. One of the main benefits of the cross-eye jammer is that it actively steers the threat away, rather than just making the skin echo difficult to distinguish. Cross-eye jamming has long been proposed as an effective countermeasure against the angle estimation function of a monopulse radar. However, several questions still remains as to whether cross-eye jamming is a technique worth pursuing.

In this thesis, detection of cross-eye jamming and cross-eye parameter estimation for monopulse radar and multi-channel radar is covered. More specifically, it is investigated whether cross-eye jamming can be detected by analyzing the monopulse ratio. To estimate parameters and by extension direction of arrival (DOA) a maximum-likelihood approach was used.

In this thesis, it is presented how cross-eye jamming can be detectable by analyzing the monopulse ratio. Estimating the actual position of the jamming direction using a maximum-likelihood function is, however, harder and no practical solution has been found in this project. (Less)
Popular Abstract (Swedish): Simulering av cross-eye-störning på ett modernt radarsystem

I en allt mer fientlig omvärld behövs nya metoder för att försvara mot fientliga angrepp. I detta examensarbetet har cross-eye-störning undersökts. Cross-eye-störning är en metod för att lura fiendens radar genom att skapa lateralt förskjutna skenmål. Cross-eye-störning har länge föreslagits som ett effektivt motmedel mot fienderadarns positionsbestämningsförmåga. I detta examensarbetet har en cross-eye-störare implementerats och simulerats i Matlab. Den simulerade störaren fungerar i enlighet med teori. Vidare har det visats att cross-eye-störaren borde vara detekterbar genom att analysera monopulskvoten. Att helt motverka störningen genom att skatta störsignalerna är... (More); Simulering av cross-eye-störning på ett modernt radarsystem

I en allt mer fientlig omvärld behövs nya metoder för att försvara mot fientliga angrepp. I detta examensarbetet har cross-eye-störning undersökts. Cross-eye-störning är en metod för att lura fiendens radar genom att skapa lateralt förskjutna skenmål. Cross-eye-störning har länge föreslagits som ett effektivt motmedel mot fienderadarns positionsbestämningsförmåga. I detta examensarbetet har en cross-eye-störare implementerats och simulerats i Matlab. Den simulerade störaren fungerar i enlighet med teori. Vidare har det visats att cross-eye-störaren borde vara detekterbar genom att analysera monopulskvoten. Att helt motverka störningen genom att skatta störsignalerna är emellertid svårare och någon generell lösning har inte erhållits.

En cross-eye-störare repterar tillbaka en sökande radars pulser. Genom att införa ett faskifte och amplitudskillnad mellan störsignalerna skapas en sned vågfront. Den sneda vågfronten ger ett förskjutet skenmål. En typiskt exempel är en målsökande missil utrustad med radar som försöker lokalisera och jaga ett stridsflygplan. Stridsflygplanet använder cross-eye-störningen som en motåtergärd med förhoppningen att styra bort missilen mot det falska skenmålet. Cross-eye-störaren föreslogs redan på 1950-talet, men det fanns länge frågetecken kring hur en sådan störare skulle implemeteras. Fasen och amplitudskillnaden mellan signalerna från en cross-eye-störare är mycket känsliga faktorer för en lyckad störning. Med kalla krigets analoga radarkomponenter var det svårt att skapa bra signalförhållanden, och under 1990-talet las många cross-eye-program ner. Intresset för cross-eye-störning ökade under 2000-talet när det italienska försvarsföretaget Elettronica visade lyckad implementation. Frågor har emellertid kvarstått kring huruvida cross-eye är en pålitlig metod för störning. (Less)

Please use this url to cite or link to this publication: http://lup.lub.lu.se/student-papers/record/9168952

author

Bennarsten, Axel ^LU

supervisor

Martin Stridh ^LU

organization

Department of Biomedical Engineering

alternative title

Simulering av cross-eye-störning på ett modernt radarsystem

course

BMEM05 20241

year

2024

type

H2 - Master's Degree (Two Years)

subject

Technology and Engineering

keywords

monopulse radar, cross-eye, phase-front distortion, jamming

language

English

additional info

2024-19

id

9168952

date added to LUP

2024-07-01 10:49:16

date last changed

2024-07-01 10:49:16

@misc{9168952,
  abstract     = {{In an increasingly hostile world, nations and defense companies are racing to develop new techniques to counter hostile acts. With the Russo–Ukraine war raging in Europe, and with Sweden’s and Finland’s accession into NATO tensions are bound to stay high for the foreseeable future. This thesis explores the cross-eye jamming technique on a simulated modern radar system. The cross-eye jammer creates an apparent spatial phase shift that creates a false lateral displacement of the target. One of the main benefits of the cross-eye jammer is that it actively steers the threat away, rather than just making the skin echo difficult to distinguish. Cross-eye jamming has long been proposed as an effective countermeasure against the angle estimation function of a monopulse radar. However, several questions still remains as to whether cross-eye jamming is a technique worth pursuing. 

In this thesis, detection of cross-eye jamming and cross-eye parameter estimation for monopulse radar and multi-channel radar is covered. More specifically, it is investigated whether cross-eye jamming can be detected by analyzing the monopulse ratio. To estimate parameters and by extension direction of arrival (DOA) a maximum-likelihood approach was used.

In this thesis, it is presented how cross-eye jamming can be detectable by analyzing the monopulse ratio. Estimating the actual position of the jamming direction using a maximum-likelihood function is, however, harder and no practical solution has been found in this project.}},
  author       = {{Bennarsten, Axel}},
  language     = {{eng}},
  note         = {{Student Paper}},
  title        = {{Cross-eye jamming simulation for a modern radar system}},
  year         = {{2024}},
}

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Cross-eye jamming simulation for a modern radar system