Communications: directive radio wave systems and devices (e.g. – Radar ew – Eccm
Reexamination Certificate
2002-08-16
2004-05-04
Sotomayor, John B. (Department: 3662)
Communications: directive radio wave systems and devices (e.g.,
Radar ew
Eccm
C342S159000, C342S162000, C342S196000, C342S379000
Reexamination Certificate
active
06731233
ABSTRACT:
BACKGROUND OF THE INVENTION
This application claims the priority of German patent document 101 40 498.0, filed Aug. 17, 2001, the disclosure of which is expressly incorporated by reference herein.
The invention relates to a method of suppressing jammer signals included in the signal received by a radar antennas of HPRF (high pulse repetition frequency) applications.
Interfering signals occurring in radar technology fall into two categories: wanted and unwanted. Wanted interfering signals include the jammer signal. Particularly in the military sector, a wanted interference (jammer signal) due to an electronic countermeasure may be desirable for protecting the target from being located and tracked. For this purpose, the target emits interfering and false signals which are superimposed on the useful signals at the radar unit, in order to generate faulty information concerning the target, and therefore inducing the enemy to take measures which are ineffective.
Unwanted interfering signals, also called clutter or noise signals, are generally signals which are generated by the reflection or scattering, for example, of energy beamed onto the surface of the earth.
The jammer signal is mainly captured by way of the side lobes of the radar antenna and is relatively strong on the basis of the 1/R
2
law. In order to suppress this signal—also called side lobe jammer—, an adaptive side lobe canceller is used (S. P. Applebaum, “Adaptive Array”,
IEEE Transactions of Antenna and Propagation
, Vol. AP-24, No. 5, September 1976). This latter canceller is based on the existence of a sum channel, a difference channel and an auxiliary channel of the radar antenna, with the auxiliary channel having an isotropic antenna diagram, particularly 30-40 dB under the maximum of the major lobe of the antenna.
FIG. 1
illustrates a known technique for suppressing the side lobe jammer. The signal is received by the radar antenna in the time domain. In the further signal processing, the sum S, difference D and auxiliary channel G are subjected to a recursive clutter filter CF which suppresses the clutter signal. Subsequently, a side lobe cancellation for the three channels S,D,G is carried out by means of a side lobe canceller SC. Finally, in the case of the known technique, the signals of the three channels S, D, G are transformed in a Fast Fourier Transformation (FFT) from the time domain into the frequency range. For computing an FFT, normally signal processors with a floating-point arithmetic are used, whereby a more precise computation of the FFT can be carried out than by means of fixed-point processors.
However, the use of a high-expenditure recursive clutter filter when a subsequent FFT takes place has proven to be disadvantageous. In addition, this method is very sluggish and can react only slowly to changes of the side lobe jammer.
SUMMARY OF THE INVENTION
It is an object of the invention to provide a method for suppression of the side lobe jammer that is simple and fast.
This and other objects and advantages are achieved by the method according to the invention, in which a signal received by the radar antenna is first processed to form sum, difference and auxiliary channels which are then transformed from the time domain into the frequency, domain using a Fast Fourier Transformation. Subsequently, in the frequency domain, the jammer signal, particularly the side lobe jammer, is suppressed by means of side lobe cancellation.
This arrangement has the advantage that the processing of the signals in the side lobe canceller can take place more easily and faster in the frequency domain than in the time domain according to the prior art. Another advantage of the method according to the invention is the fact that complicated recursive clutter filters are required.
Other objects, advantages and novel features of the present invention will become apparent from the following detailed description of the invention when considered in conjunction with the accompanying drawings.
REFERENCES:
patent: 4246585 (1981-01-01), Mailloux
patent: 4672378 (1987-06-01), Drabowitch et al.
patent: 4720712 (1988-01-01), Brookner et al.
patent: 5245347 (1993-09-01), Bonta et al.
patent: 5841395 (1998-11-01), Simone
patent: 6268821 (2001-07-01), Shrader et al.
“Steady state analysis of the generalized sidelobe canceller by adaptive noise cancelling techniques”, Jablon, N.; Antennas an Propagation, IEEE Trans. on [legacy, pre—1988], Vol: 34 Issue: 3, Mar. 1986 Ps: 330-337.*
“Algorithmic, architectural, and beam pattern issues of sidelobe cancellation”, Yuen, S.M.; Aerospace and Electronic Systems, IEEE Transactions on, vol.: 25 Issue: 4, Jul. 1989 Page(s): 459-472.*
“Adaptive beam forming without signal cancellation in the presence of coherent jammers”, Lee, J.-H.; Wu, J.-F.; Radar and Signal Processing [see also IEE Proceedings-Radar, Sonar and Navigation],IEE Procs F, Vol: 136 Issue: 4, Aug. 1989 Ps: 169-173.*
“Reducing the interference between sidelobe cancellers and sidelobe blankers in electronic scanning array radars”, Chin, J.E.; Liebman, P.M.; Fleming, J.E.; Radar Conference, 1989., Proceedings of the 1989 IEEE National, Mar. 29-30, 1989 Ps: 141-146.*
Theory and Application of Digital Signal Processing, Lawrence R. Rabiner and Bernard Gold, 1975, Bell Telephone Laboratories, Inc. & Lincoln Laboratory, pps.363 and 574.
Adaptive Arrays with Main Beam Constraints, Sidney P. Applebaum and Dean J. Chapman, IEEE Transactions on Antennas and Propagation, Vol AP24, No. 5, sep. 1976, pps.650-662.
H. Hikawa et al. “Jamming Cenceler Using Interpolated FFT” IEEE—Int'l Conference on Communications (1990) pp. 1275-1279.
Hofele Franz-Xaver
Nagel Dieter
Rothmaier Markus
Schmitt Klaus-Peter
Crowell & Moring LLP
EADS Deutschland GmbH
Sotomayor John B.
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