EP1167913A1 - Verfahren, Anordnung und Simulationsvorrichtung für Schiessübungen - Google Patents

Verfahren, Anordnung und Simulationsvorrichtung für Schiessübungen Download PDF

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Publication number
EP1167913A1
EP1167913A1 EP01660125A EP01660125A EP1167913A1 EP 1167913 A1 EP1167913 A1 EP 1167913A1 EP 01660125 A EP01660125 A EP 01660125A EP 01660125 A EP01660125 A EP 01660125A EP 1167913 A1 EP1167913 A1 EP 1167913A1
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EP
European Patent Office
Prior art keywords
simulation apparatus
launching pad
projectile
launching
target
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP01660125A
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English (en)
French (fr)
Inventor
Ari Kauttu
Petri Mattila
Kimmo Leskinen
Jukka Raivio
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INSTRUMENTOINTI Oy
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INSTRUMENTOINTI Oy
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Filing date
Publication date
Application filed by INSTRUMENTOINTI Oy filed Critical INSTRUMENTOINTI Oy
Publication of EP1167913A1 publication Critical patent/EP1167913A1/de
Withdrawn legal-status Critical Current

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G3/00Aiming or laying means
    • F41G3/26Teaching or practice apparatus for gun-aiming or gun-laying
    • F41G3/2616Teaching or practice apparatus for gun-aiming or gun-laying using a light emitting device
    • F41G3/2622Teaching or practice apparatus for gun-aiming or gun-laying using a light emitting device for simulating the firing of a gun or the trajectory of a projectile
    • F41G3/2644Displaying the trajectory or the impact point of a simulated projectile in the gunner's sight
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F41WEAPONS
    • F41GWEAPON SIGHTS; AIMING
    • F41G7/00Direction control systems for self-propelled missiles
    • F41G7/006Guided missiles training or simulation devices

Definitions

  • the invention relates to the practising of firing, more specifically to the simulation of firing a projectile in field conditions.
  • Present field simulation systems utilize laser which is installed on the projectile launching pad.
  • Laser enables simulation of firing and identification of hitting the target.
  • the targets are provided with reflectors, and the target is fired at with a laser beam. Since in a real situation, the projectile does not proceed in a straight line, as a beam of light does, the beam of light is deflected computationally.
  • the detectors positioned in the target detect the hit. Information on the hit can be transmitted to different parts of the system, such as to the firer and the trainer.
  • An object of the invention is thus to provide a method and an apparatus implementing the method in such a way that the above problems can be avoided.
  • the objects of the invention are achieved with a method, field exercise system and simulation apparatus characterized in what is stated in the independent claims.
  • the preferred embodiments of the invention are disclosed in the dependent claims.
  • the invention is based on the idea that synthetic environment images are created in a field exercise system on the basis of the landscape information stored for the launching pad and the determined location information on the launching pad and at least one target, whereby the field exercise system functions as a field simulation system.
  • Synthetic environment images indicating the proceeding of a simulated projectile are shown to at least the user of the launching pad.
  • a synthetic environment image refers to an image created and updated by a computer, depicting a simulated environment and its objects, which are possibly moving.
  • An advantage of the solution according to the invention is that field exercises of realistic nature can be implemented by simulating the proceeding of a projectile in substantially real time in one or more monitor apparatus.
  • the user of the launching pad can be trained in conditions with a great sense of reality by using a real image of the environment, transmitted by a camera apparatus in a desired manner, and by indicating proceeding of the projectile as a synthetic environment image, which can be made very realistic by means of the landscape and location information.
  • the image shown to at least the user of the launching pad is changed to a synthetic environment image when the user of the launching pad launches the simulated projectile.
  • the simulated projectile already launched is guided with guiding means in the launching pad. Guiding information on the guidance performed with the guiding means is sent to the simulation apparatus, and the simulation apparatus computes proceeding of the projectile to be simulated by taking the guiding information into account.
  • the degree of hitting the selected target is determined in the simulation apparatus.
  • the information on the degree of hitting is sent to at least the target and the user of the launching pad.
  • Explosion animation is shown to the user of the launching pad, and the explosion is simulated in the target in accordance with the degree of hitting, when required.
  • This embodiment adds to the sense of reality in exercises.
  • the landscape information stored in the memory is digital map data and objects possibly added to the map data. In this way, the exercise area can be modelled to be highly realistic.
  • Figure 1 shows a field simulation system according to a preferred embodiment of the invention
  • Figure 2 shows simulation of firing according to a preferred embodiment of the invention.
  • Figure 3 shows functions of apparatus according to a preferred embodiment of the invention.
  • the invention can be applied to any firing simulation performed in field conditions.
  • Figure 1 shows a field exercise system according to a preferred embodiment of the invention, functioning as a field simulation system.
  • the system comprises at least one launching pad LP and one or more targets TG1, TG2.
  • the targets TG1, 2 can be immovable or moving targets on the ground, in the air or in water.
  • the TG1, 2 and the LP comprise location determination means for determining location information, and data transmission means for setting up a preferably bidirectional data transmission connection to a simulation apparatus SA.
  • the SA is typically a separate computer apparatus for creating a synthetic environment image signal and transmitting it to the LP.
  • the SA comprises data communications means TxRx for receiving information, particularly location information.
  • the TxRx is preferably a transceiver, so that the SA can also send information to the targets TG1, 2 and/or to at least one launching pad LP.
  • the TG1, 2 and the LP comprise data transmission means for setting up a preferably bidirectional data transmission connection to the SA (not shown).
  • the data transmission connections can be arranged with any data transmission means; at least between the targets TG1, 2 and the SA, preferably wireless communication is used.
  • the connection between the LP and the SA can also be wireless, in which case better portability is achieved for the apparatus. For instance, code division, time division or frequency division techniques can be used in data transmission in the present field simulation system.
  • the SA can also be fixed to the launching pad LP.
  • the SA also comprises external and/or internal memory MEM, in which landscape information can be stored.
  • the SA comprises an image generator IG, which can create highly realistic, preferably three-dimensional synthetic environment images, for instance on the basis of the landscape information.
  • the IG can compute and update the synthetic environment images at such a frame rate that the proceeding of the projectile can be shown as a video image creating a sense of reality. There is a reason to use a frame rate of more than 20 frames per second; however, > 30 frames per second is recommendable to achieve an image of high quality.
  • the launching pad LP can be an apparatus intended for firing at very different targets TG1, 2 (ground, maritime, air targets).
  • the LP is an apparatus firing projectiles to be guided after the launching.
  • the LP can be a launching pad firing projectiles intended for ground targets or maritime defence projectiles, for instance. Since no real projectiles are fired in the present field simulation system, the LP does not have to be capable of firing live shots.
  • the launching pad LP comprises a camera apparatus CA mounted on it, the image produced by the CA enabling observation and selection of the target TG1, 2.
  • the camera apparatus CA can be any analogue or digital apparatus transmitting images.
  • the camera apparatus CA is a video camera.
  • the CA can, however, be for instance a thermal camera based on infrared light or an optical observation apparatus, such as binoculars.
  • the LP also comprises guiding means C, on the basis of which guiding information can be formed on the guiding measures taken by the user.
  • the C can also be a game-controller-type apparatus.
  • the launching information is read from the launching pad LP, typically on the basis of the position of the launching switch.
  • the system comprises one or more monitor apparatus MN, MN2 to 3.
  • a monitor apparatus MN has been mounted on at least launching pad LP, by means of which MN the user can preferably watch the image from the camera apparatus CA, and on the other hand, the synthetic environment image transmitted by the simulation apparatus SA.
  • the monitor apparatus MN and the camera apparatus CA can also be in the same apparatus, for example in an optical observation apparatus: ordinarily, the observation apparatus transmits real images, but when moving on to synthetic environment images, the synthetic environment image from the simulation apparatus SA is watched through an eyepiece.
  • the system can also comprise other monitor apparatus MN2 to 3, which can be via a network NW, for example, available for the trainer, or a part of another apparatus in the system.
  • the system changes over 203 to the synthetic environment image in accordance with a preferred embodiment.
  • the proceeding of the projectile is computed 205, and preferably, guiding information 204 on the guiding measures taken by the firer is taken into account.
  • the user of the launching pad LP and his/her trainer are shown 205 synthetic environment images of the proceeding of the simulated projectile. In this way, both the trainee and the trainer can follow the simulated projectile proceed like a real projectile and even affect the proceeding of the projectile.
  • Synthetic environment images can also be shown in a field simulation system as early as before the launching, but in such a case, an exercise will not be equally realistic.
  • the hitting point and the information on the projectile hitting its target are determined 206.
  • the information on the hit is sent 207 to the relevant parts of the system.
  • explosion animation can be shown. This provides the advantage that in the field simulation, hitting can be simulated immediately after the hit and a sense of reality can be achieved. After the simulated firing, one can go over 208 to the initial state, where one changes over to the real image. After this, the firing point can be changed, if required, the target can be selected again on the basis of the real image and the firing can be simulated again.
  • FIG 3 shows in greater detail functions of a launching pad LP, a simulation apparatus SA and a target TG1, TG2 according to the invention and information transmitted between them.
  • the launching pad LP is taken to emplacement and made ready for firing 301.
  • the LP preferably resembles a launching pad capable of live-shot-firing in all aspects (dimensions, weight, control apparatus etc.), whereby as realistic an exercise as possible is achieved, including all preparation measures for the firing.
  • the inventive functionality can also be added to a launching pad that is fully capable of firing live shots.
  • the location and the direction of view of the launching pad are determined 302.
  • the user of the LP can perform 303 the observation by means of a video image connected to the launching pad, received from the video camera CA and shown in the monitor apparatus MN, in other words on the basis of a real landscape image.
  • the user selects 304 the target TG1, 2 on the basis of the real image.
  • the location information and the direction of view determined are sent 305 to the simulation apparatus SA.
  • the location information is determined 306, or has been determined as early as before the start of exercise.
  • the location information on the targets TG1, TG2 is also sent 307, 308 to the simulation apparatus SA.
  • the location information can be determined by means of any location determination method. For example, satellite positioning, such as the GPS or differential GPS (Global Positioning System) positioning, or radio location, can be used.
  • the trainer can watch the same image as the user of the launching pad LP and follow the selection and observation by means of a real image.
  • the data communications connection between the trainer and the launching pad LP can be bidirectional, in which case the trainer can give feedback and instructions immediately via a speech connection.
  • the SA more precisely the IG, creates 310 synthetic environment images on the basis of the location information and the direction of view 305 of the launching pad LP, the location information 307, 308 on the targets and the landscape information 309.
  • the landscape information 309 is preferably stored in a memory of the simulation apparatus SA, but they can also be positioned in a separate memory means, such as a CD-ROM disk.
  • the landscape information 309 preferably comprises digital map data and different fixed objects possibly added to the map data, such as constructions not indicated in the map data, etc. The use of map data provides the significant advantage that the exercise area can be modelled highly realistically.
  • the image generator IG in the SA can create synthetic environment images on the basis of the map data stored in the memory, on one hand, and on the basis of the location information and the direction of view of moving objects (LP TG1, 2), on the other hand.
  • a three-dimensional synthetic environment landscape accurately simulating the real landscape can be created with 3D modelling on the basis of the map data and different models of trees, buildings and roads, for example.
  • the models required for the creation of a three-dimensional image are preferably stored in the memory MEM.
  • There are also different models of moving objects for instance a three-dimensional model of a combat vehicle, which can be shown as the target TG1 in a synthetic environment image.
  • Synthetic environment images are created on the basis of the information on the direction of view preferably from the launching pad seen from the direction of the tube/barrel.
  • the creation 310 of synthetic environment images can be started preferably when the LP has been taken to emplacement and location information is received 305 from it.
  • launching information 312 is sent to the simulation apparatus SA.
  • the switch SW of the SA switches 313 synthetic environment images to be transmitted to at least the launching pad 315.
  • the change of the image can be preferably implemented in such a way that the image shown in the monitor apparatus MN changes to a synthetic environment image as soon as synthetic environment images are received 315 from the SA.
  • the simulation apparatus SA more precisely the IG, computes 314 proceeding of the projectile, i.e. models the proceeding of the projectile in field conditions.
  • the computing can take into account different parameters affecting the proceeding of the projectile, for instance weather conditions, for the launching pad LP, or parameters characteristic of a simulated projectile.
  • the parameters can, for example, be set before the implementation of the exercise in accordance with the conditions at that moment.
  • synthetic environment images indicating the proceeding of the projectile are created, and thus the proceeding of the projectile is shown in a three-dimensional landscape.
  • Image information is sent 315 at least to the launching pad LP to be shown in the monitor apparatus MN, and preferably also to the trainer's monitor apparatus MN2 to 3.
  • Synthetic environment images indicating the proceeding of the simulated projectile are shown 316 in the monitor apparatus MN.
  • the creation (310, 314) of synthetic environment images can be started only after the launching information has been received from the launching pad 312. Thus, however, a delay is caused in the creation of the image, so that it is recommendable to create synthetic environment images as early as before the launching.
  • the proceeding of the simulated projectile can be shown in several different ways: in accordance with a preferred embodiment, the proceeding of the simulated projectile is shown as seen from the end of the simulated projectile in the direction of proceeding of the projectile. The proceeding of the projectile can also be shown for instance from behind or from one side, or seen from the launching pad LP.
  • the LP comprises guiding means C, by means of which the user can affect the proceeding of the simulated projectile already launched and, in this way, guide 317 the projectile.
  • Projectiles to be guided during the flight include several projectile types and aerial bombs.
  • the guiding information on the guidance by the user is sent 318 to the simulation apparatus SA.
  • the guiding information is taken into account in the computation of the projectile proceeding and in the creation 314 of the synthetic environment image.
  • the targets TG1, TG2 can move, in which case also their location information can change.
  • the location information 307, 308 of the targets TG1, 2 and also the direction of view 305 of the launching pad LP can be continuously sent to the simulation apparatus SA, in which the IG takes the possible changes into account in the creation 314 of the synthetic environment image.
  • the SA observes 319 whether the simulated projectile has hit the ground or the target. If the projectile is still in the air, i.e. the hit has not taken place, the SA continues the projectile proceeding computation 314 and the sending 315 of the image information. When the hit takes place, the SA determines 320 the hitting point and the degree of hitting the target. This is carried out by comparing the computed end point of the simulated projectile with the location information 307, 308 received from the target TG1, 2. There can be several degrees of hitting, for example:
  • the simulation apparatus SA sends 321 and 322 the hitting information (the degree of hitting and possibly other information) preferably to at least the launching pad LP and the selected target TG1, TG2.
  • the information on the hit can also be transmitted to all parts of the field simulation system, such as the launching pads, the trainers and the targets.
  • explosion animation can be 323 shown as a synthetic environment image in accordance with the degree of hitting.
  • An explosion can also be simulated in the target TG1, TG2 on the basis of the hitting information 322. Different sound and smoke effects, for example, can be used.
  • the above-described simulated firing can be stored in the memory MEM of the simulation apparatus SA or in another memory.
  • the real image before the launching for instance a video signal, can preferably be stored.
  • the firing can be repeated and gone through again according to the need for training.
  • the different apparatus can be networked to each other for example via the network NW shown in Figure 1.
  • the implementation of the simulation for several launching pads LP can be centralized in one simulation apparatus SA or decentralized in several separate ones. If several simulation apparatus SA are used, the different SAs can be networked through the network NW and at least the hitting information (321) can be transmitted to everyone who is participating in the exercise.
  • the NW can be a wireless or wired network, which is based on the IP (Internet Protocol), for instance. This enables simulation of firing exercises for systems that can be located very far from each other physically.
  • the simulation apparatus SA can comprise one or more processors, in which above-described inventive functions (creation of synthetic environment images, computation of projectile proceeding and determination of the hit) are performed preferably by software, and the operation (e.g. switch SW, data communications means TxRx) of other means in the simulation apparatus SA are controlled.
  • inventive functions creation of synthetic environment images, computation of projectile proceeding and determination of the hit
  • operation e.g. switch SW, data communications means TxRx
  • hardware solutions can be used for the implementation of the functions.
  • the system can even comprise a large number of launching pads LP for which synthetic environment images are created, and substantially simultaneously, the proceeding of the projectile is computed. This requires a large amount of computation capacity, so that the computation of the simulation apparatus SA can be decentralized in several different apparatus.

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  • Engineering & Computer Science (AREA)
  • Radar, Positioning & Navigation (AREA)
  • General Engineering & Computer Science (AREA)
  • Processing Or Creating Images (AREA)
EP01660125A 2000-06-28 2001-06-27 Verfahren, Anordnung und Simulationsvorrichtung für Schiessübungen Withdrawn EP1167913A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FI20001532A FI113398B (fi) 2000-06-28 2000-06-28 Menetelmä, järjestelmä ja simulointilaite ampumistilanteen harjoittelemiseksi
FI20001532 2000-06-28

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EP1167913A1 true EP1167913A1 (de) 2002-01-02

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EP01660125A Withdrawn EP1167913A1 (de) 2000-06-28 2001-06-27 Verfahren, Anordnung und Simulationsvorrichtung für Schiessübungen

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EP (1) EP1167913A1 (de)
FI (1) FI113398B (de)
NO (1) NO20013217L (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018215104A1 (de) * 2017-05-24 2018-11-29 Rheinmetall Electronics Gmbh Simulator und verfahren zur simulation eines einsatzes eines flugkörpers

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3204135A1 (de) * 1982-02-06 1983-08-18 Honeywell Gmbh, 6050 Offenbach Vorrichtung zur simulation des freien ausblicks mittels eines optischen geraetes
GB2186356A (en) * 1986-01-28 1987-08-12 Barr & Stroud Ltd Gunnery training system
DE4111935A1 (de) * 1991-04-12 1992-10-15 Industrieanlagen Betriebsges Verfahren und vorrichtung zur darstellung von trefferablagen im schuetzenvisier

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3204135A1 (de) * 1982-02-06 1983-08-18 Honeywell Gmbh, 6050 Offenbach Vorrichtung zur simulation des freien ausblicks mittels eines optischen geraetes
GB2186356A (en) * 1986-01-28 1987-08-12 Barr & Stroud Ltd Gunnery training system
DE4111935A1 (de) * 1991-04-12 1992-10-15 Industrieanlagen Betriebsges Verfahren und vorrichtung zur darstellung von trefferablagen im schuetzenvisier

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2018215104A1 (de) * 2017-05-24 2018-11-29 Rheinmetall Electronics Gmbh Simulator und verfahren zur simulation eines einsatzes eines flugkörpers
KR20200018783A (ko) * 2017-05-24 2020-02-20 라인메탈 일렉트로닉스 게엠베하 미사일의 전개를 시뮬레이션하기 위한 시뮬레이터 및 방법
AU2018274474B2 (en) * 2017-05-24 2020-10-15 Rheinmetall Electronics Gmbh Simulator and method for simulating a deployment of a missile
US11322038B2 (en) 2017-05-24 2022-05-03 Rheinmetall Electronics Gmbh Simulator and method for simulating a use of a missile

Also Published As

Publication number Publication date
NO20013217D0 (no) 2001-06-27
FI20001532A (fi) 2001-12-29
FI113398B (fi) 2004-04-15
NO20013217L (no) 2001-12-31
FI20001532A0 (fi) 2000-06-28

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