NL1040310C2 - METHOD AND CONFIGURATION FOR DETERMINING THE DIRECTION FROM WHICH GUN OR MITRAIL DOOR COMES. - Google Patents

Description

Title: Method and configuration for determining the direction from which gun or machine gun comes

DESCRIPTION

The invention relates to a method and a configuration for determining the direction from which gun or machine gun comes.

In a firefight it is often difficult to determine where the enemy is. Bullets sometimes come from multiple sides. The present experience aims to provide an aid for in such a chaotic situation, namely for determining the direction from which the gun or machine gun fire etc. comes.

According to the present invention there is provided a method for determining the direction from which rifle or machine gun fire comes, comprising providing a gas balloon, at least one camera, adapted to monitor the inside of the balloon, a compass, communication means for transmitting signals issued by the at least one camera, the compass and / or internal processing means to external processing and / or display means outside the balloon, adapted to trace and / or display the direction from the signals received from the communication means from which comes a bullet that pierces the wall of the balloon. According to the invention, there is also provided a configuration for performing this method.

It is noted that where a gas balloon is used in the context of this invention, in particular a balloon filled with a gas that is lighter than air is considered. However, this does not exclude the possible use of air or other (possibly heavier) gases. Whatever the case, it is important that the balloon is inflated by the gas or air pressure during operation, as a result of which the camera (s) may have an effect. bullet impact can (or can) detect and pass on to the processing means. If the gas is lighter than the surrounding air, the balloon can be released very easily. If a different gas is used, the balloon will for example have to be raised by means of a stake or frame. In any case, the operation of the balloon, namely the detection of a bullet impact, remains the same regardless of the gas used.

It is further noted that the signals from the camera (s) and the compass can, if desired, already be processed on the balloon side, in internal processing means, into bullet directional information, or can be pre-processed or processed in those internal processing means. With local, internal (pre) processing, a higher processing speed may possibly be achieved than with processing of the signals from the camera and the compass after they have first been transferred to external processing means. If processing is already being carried out in (or near) the balloon, the external display means "on the ground" need only display the result of that processing, the direction from which the bullet is fired. However, it is also possible to send the signals from the camera and the compass via the communication means to the external processing and display means, where those signals are first processed to the requested firing direction, which can then be displayed on a display. displayed.

Thus, a gas balloon filled with a light gas as helium is provided with a (at least one) camera that observes the inside of the balloon. A light source may be necessary in the dark. The balloon can possibly be of transparent material, as long as the camera can observe the inner wall of the balloon. Finally, an (electronic) compass is also attached to the whole. The balloon must not be too small to make the hit chance large.

If a bullet hits the balloon it will damage the balloon wall in two places. Those two places of course determine the direction of the bullet. For the camera, the passing of the bullet will be too fast to see, but the development of the two shooting holes will be able to be seen by the camera and therefore the bullet direction can be determined. Together with the information from the compass, the compass direction of the bullet can also be determined.

The gas balloon can be placed at a location where there is a good chance that it will be hit. Think of a permanent set-up as an observation tower, or precisely when soldiers patrol and get shot at. They often seek protection low to the ground and a balloon could float above, bullets that fly over the soldiers then have a good chance of hitting the balloon.

A disadvantage is that the balloon is broken after the first hit. therefore, only one enemy can be located with one balloon. This can be compensated by placing several balloons.

Advantages are that the production is probably very cheap - use can be made of nowadays very cheaply manufactured cameras, digital compasses, transmission and display means - and that the configuration is lightweight.

It is noted that - if necessary - a pressure sensor can be built into the balloon to communicate (to "trigger") to the processing unit, by detecting a sudden decrease in pressure, that the data detected by the camera (s) is then Changes to the balloon wall should be interpreted as shot holes.

It is further noted that configurations are known from various publications for determining the direction from which bullets are fired. As publications may be mentioned US5596509A, US7684020B1, US7965868B2, US2006050929A1, US2010027840A1 and W00020880A2. However, it is not known from any of these publications to use a balloon provided with a camera and a compass for this purpose.

The invention will now be further discussed with reference to the figure description below.

Figure 1 shows an exemplary embodiment of a configuration according to the invention.

Figure 1 shows a configuration for determining the direction from which a bullet 1 comes, comprising a gas balloon 2, a camera 3 which is adapted to monitor the inside of the balloon, a compass 4, communication means in the form of a transmitter 5 for transmitting signals 7 delivered by the camera, the compass and / or internal processing means 6 to external processing and / or display means 8 outside the balloon, adapted to trace and / or reverse the direction from the signals 7 received from the communication means via a display 9, from which comes a bullet 1 which pierces the wall of the balloon 2.

It is noted that it is also possible to arrange more than one camera in the balloon. For example, one camera could look upwards from the bottom, a second camera downwards from the top. This may deliver better results in practice.

As already stated earlier, the signals 7 from the camera 3 (or possibly cameras) and the compass 4 can be processed on the balloon side, in internal processing means 6 into bullet directional information or possibly in those internal processing means 6 pre-processed or processed. A higher processing speed can then be achieved than with processing of those signals after they have first been transferred to external processing means 8. If the signal processing is already carried out in (or near) the balloon 3, the external display means 8, 9 "on the ground" need only display the result of that processing, the direction from which the bullet is fired. However, it is also possible to first send the signals 7 from the camera 3 and the compass 4 via the communication means 5 to the external processing and display means 8, where those signals are first processed into the requested firing information, which can then be shown on the display 9.

Claims (2)

A method for determining the direction from which gun or machine gun fire comes, comprising providing a gas balloon (2), at least one camera (3) adapted to monitor the inside of the balloon, a compass (4) ), communication means (5) for transmitting signals from the at least one camera, the compass and / or internal processing means (6) to external processing and / or display means (8,9), external processing and / or display means, outside the balloon, adapted to derive and / or display from the signals received from the communication means the direction from which a bullet comes which pierces the wall of the balloon. 2. Configuration for determining the direction from which gun or machine gun fire comes, comprising a gas balloon, at least one camera, adapted to monitor the inside of the balloon, a compass, communication means for transmitting through the at least one camera , the compass and / or internal processing means, signals sent to external processing and / or display means outside the balloon, adapted to derive and / or display from the signals received from the communication means, the direction from which a bullet comes which the wall of pierces the balloon.