Method of resolving closely spaced targets
First Claim
1. The method of operating a four quadrant monopulse radar, where the signals received at each quadrant are represented by A, B, C and D, to resolve two sources of received signals when such sources are within the sum beam of such radar, such method comprising the steps of:
- (a) separately quadrature detecting signals received at each one of the four quadrants to produce eight video signals, associated pairs of such signals being representative of the real and imaginary parts of a corresponding one of the signals A, B, C and D;
(b) forming the monopulse ratios Y=[(A+C)-(B+D)]/(A+B+C+D), P=[(A+B)-(C+D)]/(A+B+C+D) and Δ
=[(A+D)-(B+C)]/(A+B+C+D) and the monopulse sums, S=(A+B+C+D);
(c) forming the complex conjugates Y*, P*, Δ
* amd S*; and
(d) processing the monopulse ratios Y, P, Δ and
S along with the complex conjugate to solve the identity;
space="preserve" listing-type="equation">r.sub.1 /r.sub.2 =1/2[(r.sub.1 +r.sub.2 ((r.sub.1 ±
r.sub.2).sup.2)).sup.1/2 ] where r1 is the yaw monopulse ratio of one of the sources of signals received and r2 is the yaw monopulse ratio of the second of the sources of signals received.
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Abstract
A method of processing signals received by a four quadrant monopulse antenna to resolve the signals from two sources within the sum beam of such antenna is shown to comprise the steps of: (a) separately quadrature detecting each one of the signals (A, B, C and D) received at each one of the four quadrants to form corresponding complex signals having real (I) and imaginary (Q) terms, each one of such complex video signals being representative of a different one of the signals A, B, C and D; (b) forming the monopulse sum (A+B+C+D) signal, and monopulse difference signals [(A+B)-(C+D)], [(A+C)-(B+D)] and [(A+D)-(B+C)] and the corresponding monopulse ratios; and (c), calculating the monopulse ratios of the two signals that, when extant simultaneously, produce the corresponding monopulse ratios.
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Citations
2 Claims
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1. The method of operating a four quadrant monopulse radar, where the signals received at each quadrant are represented by A, B, C and D, to resolve two sources of received signals when such sources are within the sum beam of such radar, such method comprising the steps of:
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(a) separately quadrature detecting signals received at each one of the four quadrants to produce eight video signals, associated pairs of such signals being representative of the real and imaginary parts of a corresponding one of the signals A, B, C and D; (b) forming the monopulse ratios Y=[(A+C)-(B+D)]/(A+B+C+D), P=[(A+B)-(C+D)]/(A+B+C+D) and Δ
=[(A+D)-(B+C)]/(A+B+C+D) and the monopulse sums, S=(A+B+C+D);(c) forming the complex conjugates Y*, P*, Δ
* amd S*; and(d) processing the monopulse ratios Y, P, Δ and
S along with the complex conjugate to solve the identity;
space="preserve" listing-type="equation">r.sub.1 /r.sub.2 =1/2[(r.sub.1 +r.sub.2 ((r.sub.1 ±
r.sub.2).sup.2)).sup.1/2 ]where r1 is the yaw monopulse ratio of one of the sources of signals received and r2 is the yaw monopulse ratio of the second of the sources of signals received. - View Dependent Claims (2)
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Specification