Claims
- 1. A real-weight digital open-loop coherent sidelobe canceller for a radar system having a main radar receiver and at least one auxiliary radar receiver comprising:
- a first memory having first and second inputs for receiving signals representing a sequence of n pairs of digital sample values, I.sub.mk and Q.sub.mk, the sample values I.sub.mk and Q.sub.mk representing, respectively, the digitized in-phase components and quadrature phase components of the output of the main radar receiver;
- a second memory having third and fourth inputs for receiving signals representing a sequence of n pairs of digital sample values I.sub.1k and Q.sub.1k, the sample values I.sub.1k and Q.sub.1k representing, respectively, the digitized in-phase components and quadrature phase components of the output of said auxiliary radar receiver;
- computing means connected to said first and second memories for forming signals representing the weighting coefficients W.sub.1, W.sub.2, V.sub.1 and V.sub.2 ;
- a first multiplier means connected to said computing means and to said second memory for forming signals representing the products W.sub.1 I.sub.1k ;
- a second multiplier means connected to said computing means and to said second memory for forming signals representing the products W.sub.2 Q.sub.1k ;
- a third multiplier means connected to said computing means and to said second memory for forming signals representing the products V.sub.1 I.sub.1k ;
- a fourth multiplier means connected to said computing means and to said second memory for forming signals the representing the products V.sub.2 Q.sub.1k ; and
- output means connected to said first memory and to said first, second, third and fourth multiplier means for forming a first signal set, I.sub.mk -[W.sub.1 I.sub.1k +W.sub.2 Q.sub.1k ], and a second signal set Q.sub.mk -[V.sub.1 I.sub.1k +V.sub.2 Q.sub.1k ] said first and second signal sets representing, respectively, sidelobe cancelled in-phase channel signals and sidelobe cancelled quadrature phase signals.
- 2. The sidelobe canceller of claim 1 wherein:
- said first and second memories are random access memories.
- 3. The sidelobe canceller of claims 1 or 2 wherein said computing means comprises:
- a first multiplier-accumulator; and
- a second multiplier-accumulator connected to the output of said first multiplier-accumulator.
- 4. The sidelobe canceller of claim 3 wherein:
- said first multiplier-accumulator forms signals representing the values A.sub.1, A.sub.2, A.sub.3, B.sub.1, B.sub.2, C.sub.1, and C.sub.2 where ##EQU6## wherein said second multiplier-accumulator forms signals representing said weighting coefficients W.sub.1, W.sub.2, V.sub.1, and V.sub.2 wherein ##EQU7##
- 5. The sidelobe canceller of claims 1 or 2 wherein said output means comprises:
- a first adder having inputs connected to said first and second multipliers;
- a second adder connected to said third and fourth multipliers;
- a first substractor connected to said first adder and to said first memory; and
- a second subtractor connected to said second adder and to said first memory.
- 6. The sidelobe canceller of claim 3 wherein said output means comprises:
- a first adder having inputs connected to said first and second multipliers;
- a second adder connected to said third and fourth multipliers;
- a first subtractor connected to said first adder and to said first memory; and
- a second subtractor connected to said second adder and to said first memory.
- 7. A real-weight digital open-loop coherent sidelobe canceller for a radar system having a main radar receiver and at least one auxiliary radar receiver comprising:
- memory means having a first input for receiving a first series of digital signals representing the in-phase channel components of the output of said main radar receiver and having a second input for receiving a second series of digital signals representing the quadrature phase channel components of the output of said main radar receiver, said memory means having first and second outputs, said memory means providing said first and second series of digital signals on said first and second outputs, respectively; and
- means connected to said at least one auxiliary receiver and to said memory means first and second outputs for subtracting from each of said first series of digital signals a signal representing one of a first series of real number weighted values and for subtracting from each of said second series of digital signals one of a second series of real number weighted values.
STATEMENT OF GOVERNMENT INTEREST
The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (2)
Number |
Name |
Date |
Kind |
4119962 |
Lewis |
Oct 1978 |
|
4222051 |
Kretschmer et al. |
Sep 1980 |
|