DE102011120929A1 - Protection system, in particular for ships, against radar-directed threats - Google Patents

Abstract

It is proposed to deceive a smart radar-directed threat by means of active, electronically judicable and manipulatable (off-board) deco targets. The active deceiving takes place with the aid of an antenna array (3), which on or below the surface (2) of a body (10), z. As an ammunition or projectile body, is applied, and a suitable control and signal processing (8) by which the recorded radar signals are reflected with a minimum delay against the threat. In addition, a possibility is created by the signal processing (8) to send a fixed, preferably manipulable pulse shape against the threat.

Description

The invention relates to the active protection of in particular small or medium-sized ships against intelligent radar-guided threats or missiles.

Infrared, radar and dual mode guided missiles are used, inter alia, to combat, for example, sea targets, such as ships, or other objects on land and air. After launch, these missiles or rockets initially fly inertially (eg. DE 196 01 165 A1 ) or GPS steered into the target area. The missile then goes into a search phase when it has approached the target accordingly. In addition, the missiles turn on the target and pursue this until the impact. To deceive such guided missile different exchange bodies are used to prevent the protection of objects missiles by disturbance in / at their function.

Known exchange measures against these missiles are, for example, so-called active radar jammers (SIREN, NUKLA - cf. http://www.selex-sas.com/EN/Common/files/SelexSAS_UK/pdf_datasheet/ew/SIREN.pdf . http://en.wikipedia.org/wiki/Nulka . http: //www.fas. org / man / dod-101 / sys / ship / weaps / mk-53.htm , or inflatable and / or floating radar reflectors ( EP 0 182 274 B1 ). A likewise usable in practice "Van Atta array" (eg. US 5,134,413 A http://www.transpondernews.com/taretror.html ) itself is a passive array. Other exchange bodies send electromagnetic exchange signals upon detection of a threat ( DE 100 16 781 C2 Others build "clouds" of floating dipoles (chaff clouds), which are tuned to the radar frequency of the missile.

Variants of the floating dipoles are, for example, (radar) confusion decoys, (radar) seduction exchange bodies or (radar) distraction exchange bodies. A confusion exchange body is usually used in a long distance between the object to be protected (ship) and the attacker preventively before the attack of the missile.

A method for providing a dummy target is known from DE 196 17 701 A1 known. With this, both infrared, radar and dual mode-guided missiles are directed away from the actual target to a decoy. The use of dipole and fluff compounds in a certain ratio ensures that the dipoles are swirled by the burning of the flares.

Another method and a device for deceiving infrared, radar and dual-mode-guided missiles also reveals the DE 10 2005 035 251 A1 ,

The DE 199 51 767 C2 describes a dual-mode decoy to form a decoy target with an active mass emitting radiation in the IR range and an RF radiation backscattering mass based on dipoles of aluminum or silver-coated glass fiber filaments. Both masses are ejected at the site of action together from the exchange body and brought to effect simultaneously.

A chopper with a broadband effect over the entire radar frequencies of 0.1-1000 GHz, consisting of conductive or non-conductive fibers with a conductive coating, discloses the DE 101 02 599 A1 , Other IR and / or radar-reflecting compounds, etc. are among others in the prior art DE 102 30 939 A1 listed. The disadvantage is that choppers are rejected or ignored by modern seekers as a target. They have so-called chaff-discriminators.

Inflatable systems in turn have u. a. the disadvantage that the flexible frame construction brings a low geometric accuracy with it. They have a high weight because they include pressure bottles or compressors. Additional equipment is needed to deploy the systems. Floating systems also carry the risk of uncertain duration of action, since they are not only exposed to the environmental influences as such, but also the waves, etc.

Known active systems have a high price and a complicated application process. In addition, the above-mentioned deceptive measures against the radar-guided seekers for digital data processing constantly require increased computer power to initiate a reliable Täuschmaßnahme can. The frequency and amplitude modulation of radar guided missiles simultaneously lead to large and heavy arrangements with extreme energy requirements. Also because of the known signal vibration (high-frequency signal fluctuation) illuminated chaff decoys are therefore discarded as real goals rather.

A protective device associated with protective measures for the protection of an active radar or a transmitting radar system from an anit-radiation missile (ARM) is in the DE 10 2006 017 107 A1 demonstrated. As an active countermeasure, however, the use of passive transmitters / decoys is provided, which is preferably illuminated by the own radar and their radiation is absorbed by the ARM. By doing so, the ARM can not distinguish whether it's decoys or the right radar.

A method and an arrangement for deceiving an end-phase-guided ammunition is disclosed in US Pat DE 196 04 745 C1 proposed. Although the principle used here provides that a Täuschlaserstrahl is identical in pulse sequence and wavelength with a laser beam of a Zielbeleuchters, the exchange laser beam emitting laser is mounted on a mast, so that the ammunition flying past the target, but it is here not about intelligent radar-guided missiles.

To ward off active missiles passive decoy (chaff) are known. These are deployed and reflect a signal emitted by the missile back in the direction of the approaching missile. A passive Radartäuschkörper is with the US Pat. No. 3,938,151 A1 described. From the US 2,908,002 A1 is a passive electromagnetic reflector known.

Alternative active decoys, such as in the DE 600 10 701 T2 addressed, are usually activated only with their shipment, so that a certain amount of time is scheduled, until the decoy has fully unfolded.

On the website http://transpondernews.com/taretror.html a passive radar converter is described. A passive reflector also describes the US 5,134,413 A ,

From the not pre-published DE 10 2011 114 574.9 an active decoy is formed by the use of a retro-reflector or a retrodirective antenna, preferably in the form of a van Atta array or by at least one backscatter system that send a radar beam as a reflection beam in the direction of incidence and thus back to the missile exactly can. The retrodirective antenna consists of at least one receiving and reflector antenna. Furthermore, a sensor is integrated, which serves to detect the direction of the approaching missile and is electrically connected to a position control, which acts on servo motors of the protection system to optimally align at least the decoy target on the missile.

The invention has as its object to provide an active protection, which causes an effective deception and has a low weight.

The problem is solved by the features of claim 1. Advantageous embodiments are enumerated in the subclaims.

The invention is based on the idea of deceiving an intelligent radar-guided threat with the help of active, electronically correctable and manipulatable (off-board) decoy targets.

The active deceit takes place with the aid of an antenna array (planar antenna), which on or below the surface of a body, for. As an ammunition or projectile body, is applied, and a suitable control and signal processing, by the recorded radar signals are reflected with a minimum delay against the threat. In addition, a possibility is created by the signal processing to send a fixed, preferably manipulable pulse shape against the threat. Thus, an active radar reflector is used.

Basically, temporally continuous, non-fluctuating signals with a corresponding frequency and signal course (edge formation) represent an optimal possibility for the formation of attractive and effective radar noises.

The active radar reflector (PARROT = Programmable Active Radar Offboard Targetenhancer) is characterized by the fact that a suitable signal processing and geometry affects both the directivity and the radar signal to be transmitted. The actively reflected signal is sent back to the seeker head in such a way that the best possible effect is achieved.

To simulate, for example, a Doppler shift, the signal processing performs a frequency shift between the incoming and the transmitted (active) radar signal.

Furthermore, significant signatures of various potential targets can be impressed on the reflected or hard-coded transmit signal to ensure a better switch-on of the seeker head to the reflector and to deflect it from the actual original target. These significant signatures are stored, for example, in a memory in the signal processing and preferably retrievable by a sensor detecting the threat and imprintable on the seeker head.

The ability to manipulate the actively reflected signal and send it in the direction of the threat bypasses the choppy jitter effect. (Jitter effect = signal deformation of the received versus transmitted signal.) This deformation is caused by the properties of electrical transmission media - also called high frequency signal fluctuation -.) Thus, the signal generated by the active reflector at the seeker head is no longer recognizable by chaff discriminators.

The miniaturization and programmability of the electronic assemblies enables them to be made small and inexpensive can. It also ensures the highest level of flexibility, which is sufficiently responsive to current and future threats.

Further, not insignificant advantages are that the PARROT can be deployed by known Werfersysteme and no additional equipment outside the actual ammunition are necessary. The PARROT glides then during its phase of action, for example, hanging on a parachute, to the ground or into the water. In addition, the PARROT can also be mounted on a dinghy and guided away from the ship.

Thus, an analog exchange body is created, which real deception realized by simple amplification of the radiated signal (frequency, amplitude), electrical conductivity of the radiated signals allows and programmable in duration and mode of action, a signal fading and thus detection by chaff Discriminators is excluded.

Reference to an embodiment with drawing, the invention will be explained in more detail, reference being made to the known principle of dispensing the exchange body by means of throwers, etc.

It shows:

1 a representation of the array on the surface of a reflector,

2 a block diagram of the active reflector.

1 shows an active off-board reflector 1 that by a on the surface 2 a body acting as a waveguide 10 attached antenna array 3 and a programmable signal processing not shown here with broadband input and output stage ( 2 ) is characterized. The antenna array 3 consists of several, line-like arranged individual dipoles 4 , which preferably cylindrical on the surface 2 are attached. Alternative shapes such as rectangle, parallelogram, etc. are also possible.

The antenna array 3 serves for receiving and sending, two dipoles 4 each form the transmitting and receiving antennas.

Each dipole element 4 , which is mounted on the surface, is an active switching group 20 assigned. This has a reception amplifier 6 , a logic (eg pulse detector) 7 , a signal processing 8th and a transmission amplifier 9 on.

Upon receipt of a radar pulse of a missile, not shown, this pulse from the respective dipole pairs 4 recorded by the broadband amplifier 6 ( 2 ) and briefly delayed, so that in this time a switch to transmit mode (logic 7 ).

During the delay, the transmission signal can be correspondingly in the signal processing 8th be manipulated to produce various effects, such as a Doppler shift (frequency increase or decrease) or a pulse shape change (for example, signal broadening or narrowing). These changes as manipulation of the received signal (impulse) are due to the possibility of single control of each dipole 4 through the respective active switching group 20 possible because it can influence the directional characteristic of the overall arrangement. It also enables the most effective bundling of transmission power in the direction of the threat.

Instead of switching from receive to transmit mode, alternatively, a 3-port circulator can be provided.

In case of firing, the reflector can 1 be involved in a non-illustrated ammunition body with propellant. The ammunition body should preferably also have a parachute or the like which functions as a reflector 1 opens, leaving the reflector 1 on the parachute to the ground (into the water) can slide.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19601165 A1 [0002]
• EP 0182274 B1 [0003]
• US 5134413 A [0003, 0015]
• DE 10016781 C2 [0003]
• DE 19617701 A1 [0005]
• DE 102005035251 A1 [0006]
• DE 19951767 C2 [0007]
• DE 10102599 A1 [0008]
• DE 10230939 A1 [0008]
• DE 102006017107 A1 [0011]
• DE 19604745 C1 [0012]
• US Pat. No. 3,938,151 A1 [0013]
• US 2,908,002 Al [0013]
• DE 60010701 T2 [0014]
• DE 102011114574 [0016]

Cited non-patent literature

• http://www.selex-sas.com/EN/Common/files/SelexSAS_UK/pdf_datasheet/ew/SIREN.pdf [0003]
• http://en.wikipedia.org/wiki/Nulka [0003]
• http: //www.fas. org / man / dod-101 / sys / ship / weaps / mk-53.htm [0003]
• http://www.transpondernews.com/taretror.html [0003]
• http://transpondernews.com/taretror.html [0015]

Claims (8)

Protective system for objects, in particular small or medium-sized ships, against intelligent radar-guided threats, comprising: - a body ( 10 ), - an antenna array ( 3 ) consisting of a plurality of individual dipoles arranged in a row ( 4 ), which are on or below the surface of the body ( 10 ), wherein - each dipole element ( 4 ) an active switching group ( 20 ) associated with at least one receiving amplifier ( 6 ), a logic ( 7 ), a signal processing ( 8th ) and a transmission amplifier ( 9 ) having. Protection system according to claim 1, characterized in that in the signal processing ( 8th ) during the delay, the transmit signal of the threat is manipulated. Protection system according to claim 2, characterized in that the manipulation can be the generation of a frequency increase or decrease as well as signal broadening or narrowing. Protection system according to claim 3, characterized in that these manipulations are significant signatures of the object to be protected, which are stored in a memory of the signal processing ( 8th ) can be deposited. Protection system according to one of claims 1 to 4, characterized in that the reflector ( 1 ) is involved in an ammunition body with propellant. Protection system according to claim 5, characterized in that the ammunition body additionally has a parachute or the like, which functions as a reflector ( 1 ) opens. Method for protecting especially small or medium-sized ships against intelligent radar-guided threat, comprising the following steps: - deploying a protection system ( 1 ), - receiving a signal from the radar-directed threat, - amplifying and manipulating that signal in the protection system, - bundled sending back the amplified and manipulated signal to the threat. Method according to claim 7, characterized in that significant signatures in the protection system ( 1 ) are deposited.

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