JP2012159268A - Battle training system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battle training system can perform battle training using actually useable firearms by determining the breakage of the firearms.SOLUTION: Firearm breakage category determination processing part 23b inputs: a carrying firearm type, which has been set in a laser transmitter device information notification data 10d by a radio communication part 21; and a unit-member wear category determined by a unit-member wear category determination processing part 23a. Then, the firearm breakage category determination processing part 23b determines the firearm breakage category by referring to a firearm breakage category determination table 25a of a memory part 25, sets the firearm breakage category data in light receiving device information notification data 20d, and sends it to a laser transmitter 10 via the radio communication part 21. When receiving the light receiving device information notification data 20d via a radio communication part 16, the laser transmitter 10 outputs the firearm breakage category data to a firearm state display part 17. The firearm state display part 17 displays the firearm state based on the firearm breakage category.

Description

  The present invention relates to an engagement training system, and more particularly to an engagement training system that determines the wear and tear of a member who receives an engagement training using a device that simulates a handgun, a machine gun, a firearm, or the like (hereinafter referred to as a firearm).

  The engagement training system carries a laser transmission device simulating a firearm to a member who receives the engagement training, and attaches a light receiving device that receives laser light transmitted from the laser transmission device to the member to perform the engagement training of the member. is there. From the laser transmission device, data of information (hereinafter referred to as firing information) such as a projectile, a firing position, a firearm type, a bullet type, and a remaining number of bullets when a firearm is fired is transmitted by laser light. Further, the light receiving device determines whether or not a member is hit or worn based on the received laser beam emission information, and generates information such as a wear category and a wear site (hereinafter referred to as bullet information). For example, if a member is shot at a close range with a firearm simulating a handgun, the shot member is determined to be severely worn and generates information on the impact of severe wear. It is determined and bullet information such as no wear is generated. Thus, the battle training system which can determine the degree of wear to a member based on launch information and bullet information, and can generate bullet information was provided.

  In the technique disclosed in Patent Document 1, a projector that irradiates coded laser light including shooting data such as a type of a firearm used by a shooting operation, a bullet type, and a unique identification number, and the laser light is detected, and a laser is detected. In a shooting training device equipped with a light receiver that can detect the type of fired fire included in light, its bullet type and unique identification number, etc., and display the required wear status with sound, light, smoke, etc. Even if the receiver could not receive the laser beam, it is possible to evaluate the shooting training properly by storing the shooting data such as when and what bullet type the projector has fired. Is provided. In the shooting training device of Patent Document 1, the light receiver detects the laser beam, detects the shooting data such as the type of the firearm used in the shooting included in the laser beam, its bullet type and the unique identification number, The wear status is indicated by sound, light, smoke, etc., but the firearm is not judged for damage. Also, in the conventional engagement training system, the wearer's wear is determined, but the firearm is not damaged.

JP-A-9-273896

  However, in the actual battle, if a member is worn out, the firearms carried by the member may be damaged. In such engagement training, there was a problem that another member could pick up and use a firearm that was assumed to have been damaged by a worn member.

  This invention is made | formed in view of such a condition, and it aims at providing the engagement training system which can solve the said subject.

  An engagement training system according to the present invention is an engagement training system including a laser transmission device that simulates a firearm and a light receiving device that receives laser light from the laser transmission device, and the light receiving device determines a wear category of a trainee. Trained body wear and tear classification determining means, firearm breakage class determining means for determining a fired breakage class carried or provided by the trained body based on the wear and tear class of the trained body, and the breakage class A fire damage category transmitting means for transmitting to the laser transmitting device, the laser transmitting device having a fire damage category receiving means for receiving the damage category, and a fire damage category display means for displaying the damage category. It is characterized by.

  According to the present invention, when a wearer is determined to be worn, it is possible to perform a battle training using a firearm that can actually be used by determining whether the firearm carried by the member is damaged or not. In the engagement training system, the engagement training closer to the actual battle can be performed and the engagement training can be accurately evaluated.

It is a figure which shows the outline | summary of the engagement training system which concerns on embodiment of this invention. It is a figure which shows the function structure of the member's engagement training apparatus shown in FIG. It is a figure which shows the structure of the firearm damage division | segmentation determination table shown in FIG. It is a figure which shows the format of the light-receiving device information notification data shown in FIG. It is a flowchart which shows the flow of the firearm damage classification determination process which the firearm damage classification determination process part shown in FIG. 2 performs.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as “present embodiments”) will be described with reference to the drawings.

  First, the outline | summary of the engagement training system 100 is demonstrated using FIG. As shown in FIG. 1, in the engagement training, a member carrying a laser transmitting device 10 simulating a firearm such as a handgun or a machine gun is equipped with a light receiving device 20 for a member who receives laser light and a signal processing device 30. Engagement training is conducted. In addition, a vehicle equipped with a laser transmission device 10 that simulates a firearm such as a gun can be equipped with a vehicle light receiving device 40 that receives laser light and a signal processing device 30 to perform battle training. Then, the emission information is output from the laser transmission device 10 to the signal processing device 30, and the bullet information is output from the light receiving device 20 or the light receiving device 40 to the signal processing device 30. From the signal processing device 30 attached to the member or the signal processing device 30 attached to the vehicle to the host station 50 that controls the entire battle training of the battle training system 100, information such as the progress status of the battle training changing every moment is received. Sent. The trainer who performs the engagement training can grasp the progress status of the engagement training by the host station 50.

  Next, the functional configuration of the laser transmitter 10 carried by a member, the light receiving device 20 worn by the member, and the signal processing device 30 in the battle training system 100 will be described with reference to FIG. The laser transmission device 10 includes a firing information input unit 11, a storage unit 12, a signal transmission unit 13, a control unit 14, a laser transmission unit 15, a wireless communication unit 16, and a firearm state display unit 17. The storage unit 12 includes a firearm type information area 12a and a firearm damage information area 12b. The control unit 14 includes a firearm processing unit 14a. The light receiving device 20 includes a wireless communication unit 21, a signal transmission unit 22, a control unit 23, a laser reception unit 24, and a storage unit 25. The control unit 23 includes a member wear category determination processing unit 23a and a firearm damage category determination processing unit 23b. The storage unit 25 includes a firearm damage category determination table 25a. The signal processing device 30 includes a wireless transmission unit 31, a control unit 32, a signal reception unit 33, and a storage unit 34. The control unit 32 includes a signal processing unit 32a. The storage unit 34 includes a firing information storage area 34a and a bullet information storage area 34b.

  Each function of the laser transmitter 10 will be described. The launch information input unit 11 inputs information on the projectile set in advance in the laser transmission device 10 that the member simulated the firearm, information on the shooting operation when the projectile fired by the laser transmission device 10, and the like. To the unit 14. The storage unit 12 is a storage device such as a flash memory, and stores programs and data for processing executed by the laser transmission device 10. The firearm type information area 12a of the storage unit 12 stores data such as the type of firearm, the type of bullet, and the number of remaining bullets. In addition, in the fire damage information area 12b of the storage unit 12, the fire damage information of the light receiving device information notification data 20d transmitted by radio from the light receiving device 20 worn by the member carrying the laser transmitting device 10 is stored. Is done. The control unit 14 controls the entire laser transmission apparatus 10. The firearm processing unit 14a of the control unit 14 detects the firing position based on the information on the projectile and the information on the shooting operation input from the firing information input unit 11, and calculates the number of remaining bullets of the firearm to calculate the firing information. Create The firearm processing unit 14a stores data such as the type of firearm, the type of bullet, and the number of remaining bullets in the firearm bullet type information area 12a, and the created transmission information as a signal transmission unit 13, a laser transmission unit 15, and Output to the wireless communication unit 16. Further, the firearm processing unit 14 a creates firearm state data based on the firearm damage information of the light receiving device information notification data 20 d input from the wireless communication unit 16, and outputs it to the firearm state display unit 17. The signal transmission unit 13 transmits the launch information output from the firearm processing unit 14 a to the signal processing device 30. The laser transmission unit 15 transmits the emission information output from the firearm processing unit 14a as laser data. The wireless communication unit 16 wirelessly transmits laser transmission device information notification data 10d in which data such as emission information is set to the light receiving device 20 worn by the member carrying the laser transmission device 10, and the light receiving device The light receiving device information notification data 20 d is received wirelessly from 20 and output to the control unit 14. The format of the light receiving device information notification data 20d will be described later. The firearm state display unit 17 displays the firearm state based on the firearm state data input from the firearm processing unit 14a.

  Each function of the light receiving device 20 will be described. The wireless communication unit 21 wirelessly receives the laser transmission device information notification data 10d in which data such as emission information is set from the laser transmission device 10 carried by the member wearing the light receiving device 20, The light receiving device information notification data 20d is transmitted to the laser transmitting device 10. The format of the light receiving device information notification data 20d will be described later. The laser receiving unit 24 receives laser data of launch information transmitted from a member or vehicle in battle. The control unit 23 controls the entire light receiving device 20. When the member wear and tear classification determination processing unit 23a of the control unit 23 determines the wear and tear category and the wear part of the member based on the launch information from the opponent input from the laser receiving unit 24, the bulletin information is generated and the signal transmission unit 22 is generated. Output to. The fire breakage classification determination processing unit 23b of the control unit 23 includes the launch information of the laser transmitter information notification data 10d input from the wireless communication unit 21, the crew wear classification determined by the crew wear classification determination processing unit 23a, and the fire damage classification. Based on the information in the determination table 25a, the damage category of the firearm is determined. The process of the firearm breakage classification determination processing unit 23b will be described later. The signal transmission unit 22 transmits the bullet information output from the member wear and tear classification determination processing unit 23 a to the signal processing device 30. The storage unit 25 is a storage device such as a flash memory, and stores programs and data for processing executed by the light receiving device 20. Information for the firearm damage category determination processing unit 23b to determine the firearm damage category is set in the firearm damage category determination table 25a of the storage unit 25. The configuration of the firearm breakage classification determination table 25a will be described later.

  Each function of the signal processing device 30 will be described. The signal receiver 33 receives the emission information transmitted from the signal transmitter 13 of the laser transmitter 10 and the bullet information transmitted from the signal transmitter 22 of the light receiver 20, and outputs them to the controller 32. The storage unit 34 is a storage device such as a flash memory, and stores programs and data for processing executed by the signal processing device 30. The launch information is stored in the launch information storage area 34a of the storage unit 34. The bullet information is stored in the bullet information storage area 34b of the storage unit 34. The control unit 32 controls the entire signal processing device 30. The signal processing unit 32 a of the control unit 32 stores the emission information received from the laser transmission device 10 in the emission information storage area 34 a and transmits the emission information to the host station 50 via the wireless transmission unit 31. The signal processing unit 32 a stores the bullet information received from the light receiving device 20 in the bullet information storage area 34 b and transmits the bullet information to the host station 50 via the wireless transmission unit 31.

  The configuration of the firearm breakage classification determination table 25a of the light receiving device 20 will be described with reference to FIG. As shown in FIG. 3, the firearm damage classification determination table 25a includes items of “portable firearm type”, “member wear and tear classification”, and “probability of firearm damage classification (random number range)”. In addition, items of “no damage”, “light damage”, and “severe damage” are provided in the “probability of firearm damage classification (random number range)”. “No damage” means that a firearm carried by a member is in a state where it is not damaged even if the member wears. “Minor damage” means that a firearm carried by a member is damaged by the member's wear but is repairable. “Severely damaged” means that a firearm carried by a member is damaged by the member's wear and cannot be repaired. The type of firearm carried by the member is set in “Portable firearm type”. In the “member wear category”, all member wear categories that can be determined by the member wear category determination processing unit 23a of the light receiving device 20 are set. “No damage” in “Probability of firearm damage category (range of random numbers)” includes the probability of determining that there is no damage for firearms carried by members, and the range of random numbers corresponding to that probability. . “Minor damage” in “Probability of firearm damage category (range of random numbers)” includes the probability that a firearm carried by a member is determined to be “minor damage” and the range of random numbers corresponding to that probability. . “Severe damage” in “Probability of firearm damage category (range of random numbers)” includes the probability of determining that a firearm carried by a member is “severely damaged” and the range of random numbers corresponding to that probability. . For example, if the “type of firearm” is “firearm A” and the “member wear and tear category” is “serious injury”, the probability of determining “firearm A” as “no damage” is 50%. The range of 50% (1 to 50) is a random number range of “no damage”. In the same case, if the probability of determining “firearm A” to be “slightly damaged” is 25%, the range of 25% with respect to the random number 100 excluding the range of random numbers “no damage” (51 to 51). 75) is the range of random numbers for “slight damage”. In the same case, if the probability of determining “severe damage” of “firearm A” is 25%, the range of 25% with respect to the random number 100 excluding the ranges of random numbers of “no damage” and “slight damage” (76 to 100) is a random number range of “severe damage”.

  The format of the light receiving device information notification data 20d transmitted from the light receiving device 20 worn by the member to the laser transmitting device 10 which is a firearm carried by the member will be described with reference to FIG. FIG. 4A shows a format of the light receiving device information notification data 20d. FIG. 4B shows the contents of the firearm damage data set in the light receiving device information notification data 20d. As shown in FIG. 4A, the light receiving device information notification data 20d includes data No. 1 to data no. It consists of 9 data. Each data is composed of data units from D0 to D7. In the light receiving device information notification data 20d having such a configuration, for example, the data No. 7 D0 or data No. By setting the fire damage data in D6 of 8, the fire damage data can be transmitted to the laser transmitter 10. As shown in FIG. 4 (2), the fire damage data includes “0” for “no damage”, “1” for “light damage”, “2” for “severe damage”, “3” is set when “no definition”.

  The firearm breakage classification determination process executed by the firearm breakage classification determination processing unit 23b of the light receiving device 20 will be described with reference to FIG. The firearm damage category determination processing unit 23b is activated in the light receiving device 20 when the member wear and tear category determination processing unit 23a completes the member wear and tear category determination process. When the firearm damage classification determination processing unit 23b is activated, the firearm damage classification determination process is started. Hereinafter, the flowchart of the firearm damage classification determination process shown in FIG. 5 will be described in the order of steps.

  First, in step S10, the firearm breakage classification determination processing unit 23b inputs the type of the portable firearm from the laser transmission device information notification data 10d received by the wireless communication unit 21.

  Next, in step S20, the firearm damage category determination processing unit 23b inputs the member wear category determined by the member wear category determination processing unit 23a.

  Next, in step S30, the firearm breakage classification determination processing unit 23b acquires a random number within a range of numbers from 1 to 100.

  Next, in step S40, the firearm damage category determination processing unit 23b reads the firearm damage category determination table 25a from the storage unit 25, and determines the firearm failure category based on the firearm damage category determination table 25a. For example, when the type of the portable firearm is “Firearm A”, the member wear category is “serious injury”, and the random number is “70”, it is determined by the firearm failure category determination table 25a to be “slightly damaged”. And the firearm damage classification determination processing part 23b will complete | finish a firearm damage classification determination process, if the determined firearm damage classification is output to the radio | wireless communication part 21. FIG. After that, when the fire breakage classification is input, the wireless communication unit 21 sets the fire damage classification data in the light receiving device information notification data 20 d shown in FIG. 4 and transmits it to the laser transmitter 10.

  According to the battle training system of the present invention as described above, when wear is determined for a member, by determining whether the firearm carried by the member is damaged, it is possible to use an actually usable firearm. Since the engagement training can be performed, it is possible to perform the engagement training closer to the actual battle and accurately evaluate the engagement training.

  According to the present embodiment, the determination of the fire wear category is performed by the light receiving device 20, but the laser transmitter 10 receives the member wear category data from the light receiving device 20, and the storage unit 12 determines the fire damage category. By providing the table 25a, the laser transmission device 10 can also determine the fired wear category. Further, since the signal processing device 30 includes the fire damage classification determination table 25a in the storage unit 34, the fire damage category is determined based on the launch information received from the laser transmitter 10 and the bullet information received from the light receiver 20, It is also possible to transmit the fire damage category data to the laser transmitter 10. Furthermore, the host station 50 that controls the entire battle training system is provided with the fire damage classification determination table 25a, thereby determining the fire damage category based on the launch information and the bullet information received from the signal processing device 30, It is also possible to transmit the firearm wear / repair classification data to the corresponding laser transmitter 10 via the signal processing device 30.

  Further, in this embodiment, the wearer's wear and the firearms carried by the crew members are determined, but the light receiving device 40 that is mounted on the vehicle that the crew members handle is also processed in the same manner as the light receiving device 20 that the crew members wear. By performing the above, it is possible to determine whether the firearm included in the vehicle is damaged. In this way, it is possible to determine the damage of firearms carried by the members and the firearms equipped with the vehicles based on the wear of the members and the vehicle (hereinafter referred to as the trainee). The engagement training used can be carried out.

  Moreover, in the laser transmitter 10 of this embodiment, although the state of a firearm is displayed based on a firearm breakage classification, it is also possible to make a firearm inoperable. For example, when a firearm is determined to be “severely damaged” by the firearm damage classification determination process, laser light transmission from the laser transmitting device 10 simulating the firearm is disabled. Further, when a firearm is determined to be “mildly damaged” by the firearm damage classification determination process, laser light cannot be transmitted from the laser transmitter 10 that simulates the firearm until a predetermined time has elapsed. To do. Thus, the battle training closer to the actual battle can be performed by disabling the operation of the firearm.

  As mentioned above, although this invention was demonstrated by specific embodiment, it cannot be overemphasized that the said embodiment is an illustration of this invention and is not limited to this embodiment.

In summary, the present invention has the following characteristics.
(1) An engagement training system according to the present invention is an engagement training system including a laser transmission device that simulates a firearm and a light receiving device that receives laser light from the laser transmission device. Trained body wear and tear classification determining means for determining the fired body breakage classification determining means for determining the fired fire breakage class carried or provided by the trained body based on the wear and tear class of the trained body, and the damage A fire breakage category transmitting means for sending a breakage to the laser transmitting device, the laser transmission device receiving a breakage breakage receiving unit for receiving the breakage breakage, and a firearm breakage category displaying means for displaying the breakage breakage. It is characterized by having.
(2) The light receiving device of the engagement training system according to the present invention of (1) stores firearm damage category determination information in which one or more damage categories of the firearm are set for the wear category of the trainee. It is characterized by having a storage means.
(3) The engagement training system of the present invention is an engagement training system including a laser transmission device that simulates a firearm and a light receiving device that receives laser light from the laser transmission device. A trained body wear category determining means for determining the trained body wear category transmitting means for transmitting the wear category to the laser transmitting device of the firearm carried or provided by the trained body, and the laser The transmission device displays a trainee body wear category receiving means for receiving the wear category of the trained body, a firearm damage category judgment means for judging a firearm breakage category based on the wear category, and displaying the breakage category And firearm breakage classification display means.
(4) The laser transmitting device of the battle training system according to the present invention of (3) uses firearm damage category determination information in which one or more damage categories of the firearm are set for the wear category of the trainee. It is characterized by comprising storage means for storing.
(5) The battle training system of the present invention includes a laser transmission device that simulates a firearm, a light receiving device that receives laser light from the laser transmission device, and a signal processing device that receives signals from the laser transmission device and the light receiving device. In the combat training system, the light receiving device includes a trained body wear category determining unit that determines a wear category of the trained body, and a trained body wear category transmitting unit that transmits the wear category to the signal processing device. The signal processing device comprises: a trained body wear category receiving means for receiving the wear category of the trained body; and a damage category of the firearm carried or provided by the trained body based on the wear category. Firearm breakage classification determination means for determining and firearm breakage classification transmission means for transmitting the breakage classification to the laser transmission device, wherein the laser transmission device receives the damage classification. A breakage segment receiving means is characterized by having a fire damaged segment display means for displaying the broken segment.
(6) The signal processing device of the engagement training system of the present invention according to (5) includes firearm damage classification determination information in which one or more damage classifications of the firearm are set for the wear classification of the trainee. It is characterized by comprising storage means for storing.
(7) The firearm breakage classification determination means of the engagement training system according to any one of (1) to (6) includes a random number acquisition means for acquiring a random number, and the random number is used for the wear classification of the trainee. It is characterized in that the damage category of the firearm is determined.
(8) The to-be-trained body of the engagement training system according to any one of (1) to (7) is a member to be trained or a vehicle to be operated by the member.
(9) A laser transmitting apparatus according to the present invention is a laser transmitting apparatus that simulates a firearm in a battle training system, and receives a damaged section of a firearm that receives a damaged section of the firearm transmitted from a light receiving device that receives laser light. And a firearm damage category display means for displaying the damage category.
(10) A light receiving device according to the present invention is a light receiving device that receives laser light from a laser transmitting device that simulates a firearm in a battle training system, and is a trained body wear category determining unit that determines a wear category of a trained body. A fire breakage determination unit for determining a breakage category of the firearm carried or provided by the trainee based on the wear category of the trainee, and a firearm breakage that transmits the breakage category to the laser transmitter. And a section transmission means.

  The present invention is suitable for a battle training system, but can be applied to a general system that performs various determinations in conjunction with personnel wear and the like.

DESCRIPTION OF SYMBOLS 10 ... Laser transmitter 10d ... Laser transmitter information notification data 11 ... Launch information input unit 12 ... Storage unit 12a ... Firearm type information area 12b ... Firearm damage information area 13 ... Signal transmission unit 14 ... Control unit 14a ... Firearm processing unit 15 ... Laser transmission unit 16 ... Wireless communication unit 17... Firearm state display unit 20... Light receiving device 20 d... Light receiving device information notification data 21... Wireless communication unit 22. ··· Control unit 23a ··· Personnel wear and tear classification determination processing unit 23b ··· Firearm damage category determination processing unit 24 ··· Laser receiver 25 ··· Storage unit 25a ··· Firearm damage Classification judgment table 30 ... Signal processing device 31 ... Line transmitting unit 32... Control unit 32 a... Signal processing unit 33... Signal receiving unit 34... Storage unit 34 a. Bullet information storage area 40 ... Light receiving device 50 ... Host station 100 ... Engagement training system

Claims (1)

In a battle training system comprising a laser transmitter that simulates a firearm and a light receiver that receives laser light from the laser transmitter,
The light receiving device is:
Trained body wear category determining means for determining the wear category of the trained body,
Firearm breakage classification determination means for determining a breakage classification of the firearm carried or provided by the trainee based on the wear classification of the trainee;
Firearm breakage section transmitting means for transmitting the breakage section to the laser transmitter,
The laser transmitter is
Firearm damage category receiving means for receiving the damage category;
A battle training system comprising firearm damage category display means for displaying the damage category.

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