Hello,
Has anybody tried to solve the stand-off jamming example in the page 30 of Dr. Robert M. O'Donnell's radar lecture?
I managed to calculate the S/N, but am struggling with the S/J.
What I want to know is why Gj(θj) is 0.643 when the stand-off jammer is illuminating the victim radar's mainlobe (1.35 deg).
http://radar-course.org/Radar 2010 PDFs/Radar 2009 A_19 Electronic Counter Measures.pdf
http://radar-course.org/Radar 2010 PDFs/Radar 2009 A _4 Radar Equation.pdf
Has anybody tried to solve the stand-off jamming example in the page 30 of Dr. Robert M. O'Donnell's radar lecture?
I managed to calculate the S/N, but am struggling with the S/J.
What I want to know is why Gj(θj) is 0.643 when the stand-off jammer is illuminating the victim radar's mainlobe (1.35 deg).
http://radar-course.org/Radar 2010 PDFs/Radar 2009 A_19 Electronic Counter Measures.pdf
http://radar-course.org/Radar 2010 PDFs/Radar 2009 A _4 Radar Equation.pdf
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