EP0330886A1

EP0330886A1 - Shooting simulator device

Info

Publication number: EP0330886A1
Application number: EP19890102322
Authority: EP
Inventors: Marco Volpe
Original assignee: Microfox Engineering Di Farfoglia M & Volpe M SNC
Current assignee: MICROFOX ENGINEERING DI FARFOGLIA M. & VOLPE M. SN
Priority date: 1988-02-24
Filing date: 1989-02-10
Publication date: 1989-09-06
Anticipated expiration: 2009-02-10
Also published as: IT1220841B; ES2047048T3; DE68911000T2; DE68911000D1; IT8883323A0; EP0330886B1; ATE98014T1

Abstract

Computerised electronic device (10) able to identify, select and verify the aiming of light weapons (12) at direct fire, which comprises an optical assembly (13-15) fitted to a support bracket (11) solidly fixed to the body of a light weapon (12), the image provided by the optical assembly (13-15) collimating with the image obtainable through the sights of the light weapon (12), the optical assembly (13-15) being connected also to a data processing unit (16) able to convert the image arriving from the optical assembly (13-15) into an organized series of processable electrical signals, to process such electrical signals according to a pre-determined arrangement and to generate a series of electrical output signals that provide a representative assessment of the shot fired.

Description

This invention concerns a shooting simulator device. To be more exact, the invention concerns an electronic device capable of being fitted to a light weapon and of cooperating therewith so as to simulate the effects of a shot fired from that light weapon.
This device is mainly employed in the field of training military personnel and others to fire with light weapons.
Electronic devices exist in the state of the art which simulate the firing of a shot from a light weapon. These devices provide, for instance, a means to send a luminous beam against a target represented on a television screen, such means having a form and dimensions like those of a light weapon, for instance a rifle or pistol.
Such devices entail a plurality of drawbacks inasmuch as they give a wholly artificial view which does not correspond to reality; moreover, the operations and effects typically linked to a shot fired with a real weapon, such as the adjustment of the backsight, graduated movements, the noise of the shot and the recoil of the weapon are generally missing.
US-A-3,798,796 discloses a method and a device for the training of personnel in the optical tracking of a moving target. The operator has at his disposal an optical instrument equipped with a controlling telecamera provided with a reticle for collimation purposes arranged or re-created with optical methods on the sensitive surface. The optical device of this invention is not a real weapon and simulates aiming only. No procedure to simulate a shot is provided.
US-A-4,439,156 concerns a training device for a simulated anti-tank weapons system. The device works in a simulated manner and concerns particularly anti-tank weapons and includes means to pre-arrange and move the terrain and target. The device provides for the need of a reference source on the target so that the shots can be assessed, and the data of the trajectory are processed. An array of photodiodes is used to establish the accuracy of the simulated shot.
US-A-4,524,386 discloses a thermal target display system by means of which it is possible to generate thermal radiation patterns simulating the thermal "signature" of real-scene simulated objects such as vehicles, persons, etc. The system employs a plurality of heat-radiating thermal elements arranged in an array to form a thermal screen or target.
US-A-3,453,385 discloses an apparatus and method which employ electro-optical principle to display to an observer the field of view seen by a person aiming a firearm such as a rifle or the like.
US-A-4,209,832 discloses a system which provides a complete electronic simulation of a battle, whereas US-A-4,611,993 concerns testing of real firing carried out by a tank employing tracer shells.
US-A-3,798,795 discloses a system to assess the accuracy with which a missile is aimed at a flying object.
The present invention has the purpose of obviating all the drawbacks and shortcomings of the state of the art and providing a device which, while simulating an actual situation in a fully realistic manner, can give at the same time an almost instantaneous recording and processing of the data linked to the shot fired. These and other purposes are attained by a device having the features described in Claim 1, while the dependent claims describe preferred forms of embodiment of the invention.
The device according to this invention has been embodied generally so as to enable conscript soldiers and others to be trained to shoot at targets with a rifle in small shooting ranges of 50 metres or in ranges of 100-300 metres.
The device is fitted to suitable guides included on the models of the rifles normally provided or to guides expressly made for the purpose and located at the side of the body of a rifle or other light weapon.
According to a particularly advantageous embodiment of the invention the device is fitted to guides provided for the fixture of an infrared ray telescopic sight to the weapon.
After having acted on the traditional mechanical means available on the weapon itself, such as the backsight and graduated displacements, the shooter performs all the operations of loading, aiming and firing the rifle and then checks with a monitor to see where he has actually shot, thus finding out how, if necessary, he must correct his shot to hit the target.
According to the invention this is obtained by installing on the rifle or light weapon a system to verify the aim which consists of a telephoto lens, a telecamera, an electronic shutter and a shock sensor.
The telecamera and shock sensor are connected to data processing means consisting generally of a computer, which is provided with means to store and digitise the image in real time and with suitable statistical calculation means.
The computer is also able to restore for the user the image obtained by the telecamera by means of a shooting mask consisting of a pair of orthogonal segments positioned in the form of a cross, the intersection of the cross indicating the most likely point of impact of the bullet.
The position of the mask is determined by the computer according to the shooting distance to be simulated in conformity with the characteristics of the weapon and ammunition employed.
The device can be used after carrying out alignment of the traditional sights with the electronic system, and this alignment can be performed preferably by assuming a situation of direct firing with the backsight at zero.
At the moment of shooting the image being obtained by the telecamera is stored by the computer in a stable manner according to a command generated by the shock sensor.
The image is displayed thereafter on two different monitors, one of which is located beside the shooter, whereas the other is placed near a central control and data processing unit that comprises the computer.
In this way the shooter can see, owing to the firing mask superimposed by the computer on the stored image displayed on the monitor, the point he would have hit on the target if he had fired a bullet.
This observation will also enable him to correct the next shot if necessary.
The monitor placed near the central unit can be used to provide an overall view of the shots fired by various local independent units, to display the hits obtained by each shooting station and to give an assessment of the shooting, thereby producing a score card for each shooter.
Other purposes and advantages of the invention will become clear from the following description of one form of embodiment of the invention, this form being given as a non-restrictive example

Fig.1 shows a three-dimensional view of a light weapon equipped with a device according to the invention;
Fig.2 gives a block diagram of the method of working of the device according to the invention.

In the figures a shooting simulator device 10 according to the invention is fitted to a support bracket 11 and is solidly fixed to a light weapon 12, which in this example is shown as being a rifle as supplied to the Italian army.
The support bracket 11 comprises a slide that cooperates with a guide located on one side of the body of the rifle 12.
This guide is normally included on combat rifles and serves for the installation of an infrared ray sighting device.
If the guide is not included on the body of the rifle, it is supplied together with the support bracket 11 and is secured to the body of the rifle 12.
The actual device 10 itself comprises an optical assembly having a telecamera 13, an electronic shutter 14 and a telephoto lens 15.
In this particular example the telecamera 13 is shown as being a black and white static telecamera equipped with a CCD sensor and is able to withstand very strong impacts and stresses.
Fig.1 shows an electronic shutter 14 placed between the telecamera 13 and telephoto lens 15 and joined to them by a special attachment.
The electronic shutter 14 consists generally of a liquid-crystals means which, being polarized suitably with a control voltage, enables a system providing selection of the light passing through to be obtained.
The response time of this electronic shutter 14 can attain an order of magnitude of one thousandth of a second.
The inclusion of the electronic shutter 14 makes possible the fixture in the telecamera 13 of an image relating to a very short exposure time, and this prevents and eliminates the vibrations of the video image due to sudden movements of the weapon during aiming and firing.
An optical means, which in this particular example consists of a 300 mm. telephoto lens available on the market, is connected to the shutter 14.
There from part, of course, of the purposes of the invention forms of embodiment in which the telecamera 13, electronic shutter 14 and telephoto lens 15 possess technical characteristics differing even widely from those described above.
A shock sensor 17 is also fitted below the support bracket 11 and can emit a signal corresponding to the impact of the striker at the moment of firing. The signal emitted by the shock sensor 17 and the images coming from the telecamera 13 are transmitted by suitable cables to a data processing unit 16 consisting generally of a personal computer.
This computer 16 is provided with a circuit by means of which the images arriving from the telecamera 13 are digitised and stored, and is also provided with an on/off digital input circuit connected to the shock sensor 17.
Moreover, the computer 16 is equipped with specialized software which makes possible, for instance, the generation of the electronic target mask in the cited form of a cross and the statistical processing of the shooting data together with a simultaneous view, at the central unit, of the firing performance of the various separate shooting stations.
This software is structured in such a way as to enable a plurality of parameters (type of rifle, distance of target, etc.) to be introduced into the computer which provide a basis for the subsequent processing of the shooting data.
Fig.2 shows the telecamera 13, shock sensor 17, a shunt block forming an interface 18 and comprising a feed unit, and the computer 16 provided with a first monitor 19 for use by the person in charge of the range and with a second monitor 20 positioned generally near the shooter.
The above device corresponds to a special form of embodiment of the invention, which is used in this case for the training of military personnel in shooting. However, the purposes of the invention cover forms of embodiment and employment which may differ even widely from those described above.
For instance, the scope of the invention covers a form of embodiment whereby the telecamera 13 is transferred and supported apart from the weapon. The transmission of the image between the telecamera and weapon is achieved by lines of optically insulated glass fibres, and this form of embodiment is particularly advantageous as regards the light weight of the whole device.
The scope of the invention covers also forms of embodiment whereby the data processing unit consists not of a personal computer but of a microcomputer of minicomputer with all the technical consequences concerning possible increases in the number of data to be processed and in the connected shooting capabilities which can be supervised at one and the same time.
The purposes of the invention, of course, cover forms of embodiment whereby the device is fitted to any light weapon and is used by non-military personnel, in a private shooting club for instance.

Claims

1 - Computerised electronic device (10) able to identify, select and verify the aiming of light weapons (12) at direct fire, which is characterized in that it comprises an optical assembly (13-15) fitted to a support bracket (11) solidly fixed to the body of a light weapon (12), the image provided by the optical assembly (13-15) collimating with the image obtainable through the sights of the light weapon (12), the optical assembly (13-15) being connected also to a data processing unit (16) able to convert the image arriving from the optical assembly (13-15) into an organized series of processable electrical signals, to process such electrical signals according to a pre-determined arrangement and to generate a series of electrical output signals that provide a representative assessment of the shot fired.

2 - Device as claimed in Claim 1, which is provided with a sensor (17) that emits an electrical signal representing the moment of firing, the sensor (17) being connected to the data processing unit (16).

3 - Device as claimed in Claim 1 or 2, in which the optical assembly comprises a telephoto lens (15), means (14) able to limit the time of exposure in obtaining the image and a telecamera (13).

4 - Device as claimed in any claim hereinbefore, in which the data processing unit (16) cooperates with an interface block (18).

5 - Device as claimed in any claim hereinbefore, in which the data processing unit (16) cooperates with a means which digitises and stores images received from the optical assembly (13-15).

6 - Device as claimed in any of Claims 2 to 5 inclusive, in which the data processing unit (16) cooperates with an on/off digital input printed circuit connected to the sensor (17).