DE3635816C2 - - Google Patents

Description

The invention relates to a method for monitoring and unmasking of enemy vehicles according to the preamble of claim 1 as well an apparatus for performing this method.

Through the use of range finders, target illuminators and communica Laser-based systems are the development and use of laser warning receive (LAWA), such as the subject of DE 28 52 224 B2 and DE 34 00 837 C1 are current. Such laser warning receivers can determine which type of laser (pulse, CW) from which direction with which pulse length and Pulse repetition frequency illuminates the object to be protected in order to Signal processing capacity at the same time to determine the degree of threat and take any countermeasures. As a rule, you have to assume that the laser transmitter-side weapon use immediately after the distance measurement or during the target illumination and so that countermeasures must trigger automatically, if one Defense should make sense. From this perspective, it is possible, for example, that LAWA locates the directly incident laser radiation so precisely that a Gunner's sight can be automatically adjusted until the radiation source or its carrier vehicle appears within the field of view of the visor and is recognized by the gunner. But also from the litter maximum Countermeasures can be taken in the atmosphere of scattered radiation conduct.

When a single pulse is located by LAWA, it can be expected that a Gun barrel control system aimed at the illuminated LAWA target  is and a targeted shot immediately after the distance measurement is resolved. Then the target vehicle only has the option of a quick one Position change after which it may have fogged up beforehand, such as this in "Combat Troops / Combat Support Troops", 1983, Issue 1, Page 16. On the other hand, fogging after a hit has occurred deals with patent application DE 33 11 075 A1.

From INTERNATIONAL WARREST 7/1986, page 966, it is then be knows to design smoke throwing systems so that the smoke cartridges in a defi nated azimuth direction and to be thrown diagonally upwards at to spread a curtain of fog downwards quickly. One hopes thereby the direct view on the laser transmitter side, which enables the targeted use of the Gun is required to stop in time to fire the targeted shot to prevent. In order for this to be possible, the smoke caps have to go through the LAWA device is triggered automatically; as well as other automatic ones Measures to protect the endangered property.

The object of the invention is seen in creating a possibility enemy equipped with laser warning receiver and fogging device To unmask vehicles that are also in a covered position. This object is achieved by the characterizing part of claim 1 mentioned features solved. In this way, even through form, Make out the color and vegetation of well-camouflaged enemy vehicles or else too long target distances, the weapon system parts within the camouflage structure no longer show, overcome, because namely a LAWA, the direct or receives indirect laser radiation, the fogging automatically leads and thereby exposes itself. The targeted control of terrain scanning also has the further advantage that with the limited pulse train frequency of the laser sources the optimal monitoring speed for one predetermined section of the terrain is reached.

A development of the invention is in the device according to seen saying 4.  

The remaining subclaims also contain developments of the invention.

The following is an embodiment of the invention with reference to a drawing explained in more detail. It shows

Fig. 1, the monitoring of a full with vision device and LAWA upgraded tank in covered position with the aid of a laser jammer,

Fig. 2, the exposure of the covered target by triggering fog cups by means of the signal of a single pulse and

Fig. 3 shows the fog wall built up with the help of the fog cup in front of the enemy vehicle.

If you look at B. limited to earth combat, LAWA devices 5 are used in (mainly armored) vehicles, command posts and important stationary facilities, which are fought by direct bombardment with ballistic projectiles or by missiles with laser end phase guidance. The attacker can be ground or airborne.

In Fig. 1, a battle tank 1 has 2 position be behind dense vegetation. Only the part of the command tower 8 equipped with the cannon barrel, the viewing device 3 and the LAWA 4 is visible from him in FIG. 1. When the front is stationary or when the front is frozen, the tank can hardly be made out, especially if a greater distance prevents the weapon system parts from lifting off from the camouflage structure.

The side interested in unmasking such a tank 1 will take advantage of the wavelength to which experience has shown that the opposing LAWA 4 responds. The same generally corresponds to the wavelength of your own laser rangefinder and end-phase guided weapons.

Since a laser individual pulse predicts that the automatic control of the LAWA 4 will be controlled by a barrel weapon, the unmasking laser must simulate this greatest threat. This is now done in that the confusing terrain is scanned in succession so that no area is more often than once beamed. This sequential scanning is symbolized in FIG. 1 by the beam cross sections a and b and in FIG. 2 by the beam cross sections a to c .

If, as shown in FIG. 2, the main battle tank 1 is hit by the signal c of the laser beam 5 , the LAWA 4 reacts by triggering the ejection of fog cups 6 , generally diagonally upwards in order to Subsequent downward falls as quickly as possible to build up the fog from top to bottom until finally, according to FIG. 3, a fog wall 7 is created in front of the tank, which, however, simultaneously indicates to the operator of the associated laser transmitter the location of the enemy tank or uncovers it.

A pulsed or a continuous wave laser can be used. The monitoring time can be shortened if the laser transmitter is equipped with a variable widening optic which is known per se and is therefore not shown in the drawing. With the same, the beam divergence is increased so far, if necessary, that in the range of about 2 to 4 km, in which tank combat usually takes place, the energy density of the laser is just so great that the receiver of the LAWA 5 responds. The energy density can be determined so that z. B. at 4 km, only directly incident radiation is displayed, while in a very well camouflaged tank 1 , only 2 km away, the scattered radiation already exceeds the sensitivity threshold of the LAWA-side receiver.

The laser transmitter or target illuminator can be used with one in azimuth and ele vation manually or automatically working, likewise not graphically provided beam swivel device, then laser pulse and Swivel step are synchronized and also a process computer for the Sequence control is provided.

Claims (4)

1. A method for monitoring and camouflaging enemy vehicles equipped with a laser warning receiver and fogging device, in which the reception of a laser shot from the opposite side triggers a fogging, characterized in that

• a) a wavelength is consciously chosen for the beam ( 5 ) from the laser transmitter or target illuminator, to which the opposing laser warning receiver ( 4 ) responds,
• b) first the laser wavelength of the rangefinder of one's own vehicle or that of phase-guided weapons is used,
• c) Terrain areas which - due to shape and vegetation ( 2 ) - are suitable for camouflaging the opposing vehicles ( 1 ), are scanned point by point and only once with the laser transmitter or target illuminator,
• d) the monitoring time and pulse repetition frequency for the given area are controlled by widening optics which enlarge the beam divergence, and
• e) the greatest threat for the enemy vehicle and thus triggering the fogging process is simulated with a single scanning pulse.

2. Device for performing the method according to claim 1 and using a laser transmitter with a pulsed laser or continuous wave signal, characterized by a variable widening optics in the transmission channel, the beam divergence at the greatest distance of the area of interest for tank combat via directly incident radiation and at a closer , due to good camouflage of the target object from the drawing distance, the scattering radiation already exceeds the sensitivity threshold of the opposing laser warning receiver ( 4 ). 3. Device according to claim 2, characterized in that that the laser transmitter manually or in azimuth and elevation Automatically operated beam swivel device with step-by-step Has movement sequence. 4. The device according to claim 3, characterized by a Laser pulse and swivel step synchronizing device and a Process computer for sequence control.