FR2987108A1 - COMBAT SHOOTING SIMULATOR FOR WEAPONS ASSOCIATED WITH ABSOLUTE OPERATION AND RELATED FIELD OPERATION - Google Patents

Abstract

The present invention relates to a method of simulation of combat fire for weapons, characterized in that it comprises the following steps: acquisition of information on a weapon (11); . transmitting said information to a central system (20); . processing said information at said central system (20); . determination by said central system (20) of the possible destruction of targets; and. transmission to at least one target of its new state. The present invention also relates to a combat firing simulation system for weapons.

Description

FIELD OF THE INVENTION The present invention relates to the field of com firing simulators.

The present invention relates more particularly to a simulator of combat firing for weapons associating absolute operation and operation in relative terrain.

State of the art Combat fire simulators mounted on real weapons use a laser communication system to allow the firer to come into contact with the target equipped with laser detectors.

Two families of systems exist: - "one way" systems where the shooter uses a noticeably divergent beam to sensitize the target who declares himself affected as soon as he detects the illumination; and the "two-way" systems where the shooter has a laser that scans the space in search of echoes on a target and communicates the range and the range of fire between the shooter and this target. The target then calculates if it is destroyed. The simulators radio the events and their position to a central system. The target receives information from the central system. The central system has the ability to destroy the geolocated targets in an area to simulate the effect of an explosive ordnance. In this case, the corresponding shooter is purely fictitious and generated by the central system.

DISCLOSURE OF THE INVENTION The present invention intends to overcome the drawbacks of the prior art by proposing a method of increasing the performance of the laser simulation, in particular in the case of high-ballistic ammunition or point of impact in a non-visible zone of the shooter by adding the ability to trigger from the weapon a destruction by the central system, replacing the fictitious shooter mentioned above. The two simulation systems coexist on the same simulator allowing it, depending on the munition selected and the current flight situation to use one or the other. To this end, the present invention relates, in its most general sense, to a method of simulating combat fire for weapons, characterized in that it comprises the following steps: - acquisition of information on a weapon; - transmission of said information to a central system; processing said information at said central system; determination by said central system of the possible destruction of targets, and transmission to at least one target of its new state. Advantageously, said transmission is performed by radio communication. According to one embodiment, said information includes the location of the weapon or the location of the shooter of the weapon.

According to one embodiment, said information comprises the attitude (site, azimuth) of the weapon.

According to one embodiment, said information comprises the angular speed of the weapon. According to a variant, said information comprises the acceleration of the weapon. The present invention also relates to a combat weapon simulation system, characterized in that it comprises means for: - acquiring information on a weapon; transmitting said information to a central subsystem; - processing said information at said central subsystem; - determine at the level of said central subsystem the possible destruction of targets; and - transmit to at least one target its new state. According to one embodiment, said weapon is associated with a shooter equipped with an attitude detection function and an inertial function constituting an extension module mechanically and electrically connected to a firing function fitted to said firer. According to one variant, location information is generated at a shooter by a GPS device. According to another variant, location information is generated at a shooter by an indoor location device. According to one embodiment, said weapon is associated with a shooter equipped with a complementary energy source.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood from the following description, given purely for explanatory purposes, of one embodiment of the invention, with reference to the figures in which: FIG. the different steps of the process according to the present invention; and - Figure 2 illustrates an embodiment of the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS OF THE INVENTION FIG. 1 illustrates the various steps of the method according to the present invention: acquisition of information on a weapon 11; transmission of said information to a central system 20; processing said information at said central system 20; determination by said central system 20 of the possible destruction of targets; and transmitting at least one target of its new state. Figure 2 illustrates an embodiment of the present invention. In Figure 2 is shown a shooter 10 equipped with a weapon 11. Also shown in this Figure a building 50 comprising a ground floor and a first floor. In this building 50 are positioned three infantrymen 12 and 14 on the first floor, and a third infantryman 13 on the ground floor of building 50.

The shooter 10 and his weapon 11 communicate by radio 31 with a central system 20.

This central system 20 communicates by radio 32 with elements located within the building 50. In one embodiment, said central system 20 comprises a processor, a memory as well as radio communication interfaces. In the context of the present invention, the shooter 10 is equipped with the firing function of his laser simulation system (laser transmitter) supplemented by: attitude detection functions (site, azimuth) on the weapon, and / or an inertial function on the weapon (angular velocity, acceleration), - a location function on the shooter, - an additional source of energy if necessary. In one embodiment of the present invention, the attitude detection functions and the inertial function are organized to form an extension module mechanically and electrically connected to the firing function. Before firing, the type of simulation is selected, according to the weapon that the user declares to want to use. If the weapon requires it, the attitude and inertial data recorded on the weapon at the moment of firing are transmitted to the central system, as well as the location of the firer 10. The central system 20 deduces from these data the point of fall. ammunition and destroy the targets there. In the example of Figure 2, information, including location on the weapon 11 or the shooter 10 and attitude information (site, azimuth) on the weapon, as well as inertial information on the The weapon (angular velocity, acceleration) is acquired and transmitted by radio 31 to the central system 20. Thereafter, a processing of said information is performed at said central system 20.

The central system 20 may for example determine that the targets in the south-east quarter 51 of the first floor of the building 50 are destroyed. Thus, infantrymen 12 and 14 in this part 51 of building 50 will be destroyed. Said central system 20 then communicates this information via the radio channel 32 to the elements situated in this part 51 of the building 50. The system can be put to advantage on the one-way and two-way laser systems. In the case of the one-way system, the attitude and inertial information is transmitted from the case equipping the weapon to the equipment of the infantryman. The location information is generated at the infantry level by an appropriate device (GPS, indoor location,). The infantryman then transmits all the data to the central system.

The invention is described in the foregoing by way of example. It is understood that the skilled person is able to realize different variants of the invention without departing from the scope of the patent.

Claims (11)

REVENDICATIONS1. A method of simulating combat fire for weapons, characterized in that it comprises the following steps: - acquisition of information on a weapon (11); transmitting said information to a central system (20); processing said information at said central system (20); determination by said central system (20) of the possible destruction of targets; and transmitting at least one target of its new state. 2. Method according to claim 1, characterized in that said transmission is performed by radio communication. 3. Method according to claim 1 or 2, characterized in that said information comprises the location of the weapon (11) or the location of the shooter (10) of the weapon (11). 4. Method according to claim 1, 2 or 3, characterized in that said information comprises the attitude (site, azimuth) of the weapon (11). 5. Method according to one of the preceding claims, characterized in that said information comprises the angular velocity of the weapon (11). 6. Method according to one of the preceding claims, characterized in that said information comprises the acceleration of the weapon (11). 7. Combat fire simulation system for weapons, characterized in that it comprises means for: - acquiring information on a weapon (11); transmitting said information to a central subsystem (20); - processing said information at said central subsystem (20); and - determining at the level of said central subsystem (20) the possible destruction of targets. - transmit to at least one target its new state. 15 8. System according to the preceding claim, characterized in that said weapon (11) is associated with a shooter (10) equipped with an attitude detection function and an inertial function constituting an extension module connected mechanically and electrically on a function 20 shooting equipping said shooter (10). 9. System according to claim 7 or 8, characterized in that a location information is generated at a shooter (10) by a device type GPS. 25 10. System according to claim 7 or 8, characterized in that location information is generated at a shooter (10) by an indoor location device. 11.System according to one of claims 7 to 10, characterized in that said weapon (11) is associated with a shooter (10) equipped with a complementary energy source.