CN114898620A

CN114898620A - Military chess deduction intelligent decision-making equipment and process based on SaaS

Info

Publication number: CN114898620A
Application number: CN202210492960.9A
Authority: CN
Inventors: 贺德富; 苏喜生; 刘楠; 杨莉; 贺鹏升; 谢超
Original assignee: Wuhan Zhihui Education Technology Co Ltd; Hubei University of Education
Current assignee: Wuhan Zhihui Education Technology Co Ltd; Hubei University of Education
Priority date: 2022-05-07
Filing date: 2022-05-07
Publication date: 2022-08-12

Abstract

The invention provides an intelligent decision-making device and a flow for war game deduction based on SaaS, and relates to the technical field of war game deduction. The defects of the traditional sand table deduction and the modern intelligent platform deduction are combined, force distribution is deduced through the sand table, and then the actual combat condition is simulated through simulation, so that the actual combat countermeasure effect can be achieved.

Description

Military chess deduction intelligent decision-making equipment and process based on SaaS

Technical Field

The invention relates to the technical field of war game deduction, in particular to an intelligent war game deduction decision-making device and process based on SaaS.

Background

SaaS is a model, called Software as a service (Software as a service), and is a platform for providing interactive services.

The war game deduction can simulate the process and the result of the confrontation, and the result has reference significance for the actual confrontation. With the development of artificial intelligence technology, it has become a trend to apply intelligent technology to the field of war game deduction. The war game fight deduction is a common fight style in fight exercises and is also a tool for fight research and training, and compared with actual fight exercises, the war game deduction can fit a real fight environment and an actual fight situation. With the aging of artificial intelligence technology and the integration of wars and wars into countermeasure command practice, the integration of intelligent algorithm and wars countermeasure deduction gradually becomes a research hotspot in the fields of computers and artificial intelligence, and research achievements related to the integration promote the development of countermeasure intelligence and play an increasingly significant role in the improvement of fighting capacity.

Patent No. CN113435598A discloses an extensible war game deduction platform oriented to multiple fields, which includes deduction services, deduction support tools and basic data tools, wherein the deduction services include a war game deduction engine, a war game basic data service and a monitoring tool for database and service performance; the deduction support tool comprises a deduction management tool and a deduction client side, and the basic data tool comprises chess piece editing, map editing, scenario editing and rule editing; also comprises a deduction analysis tool and a chess database.

Patent No. is CN 212282837U's patent discloses a war chess deduction device, including the sand table, the concave rectangle recess that has in the upper surface of sand table one, the equal indent in both sides has a rectangle spout around the rectangle recess inner wall, the top of sand table is provided with a rectangle pole, a slide bar of the equal fixedly connected with in both sides around the rectangle pole, two the slide bar inserts two respectively the inside of rectangle spout, two the size of slide bar is respectively with two the size of rectangle spout accords with mutually.

Aiming at the defects of the current war game deduction, the method comprises the following steps:

1. the prior war game deduction is carried out independently by a sand table or simulation, is suitable for common battles on land in the process of deduction by the sand table, and cannot enable personnel to more intuitively discover the defects generated in the process of confrontation and influence deduction judgment in the process of confrontation when carrying out deduction by simulation exercises;

2. the process of simulating actual combat is deduced through the weapons, but the changeability consideration in the actual combat process is not sufficient, such as the geographical positions of own and enemies, mixed combat of multiple enemies, and the cooperative combat among all arms of land, sea and air, an intelligent decision-making system is not complete, and the cooperation problem in the actual combat is influenced;

3. in the process of war game deduction, the conditions of attack accuracy and resource use in the fighting process are not considered, so that in the actual fighting process, on one hand, in the matching process of attacking equipment, decision judgment made according to the actual fighting conditions is not accurate enough, and the optimal confrontation time is influenced; on the other hand, when the decision is not in time, the opponent opportunity is influenced, and the waste of weapon resources such as missiles and the like is caused.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an intelligent strategy deduction decision device and a strategy based on SaaS, which solves the problems that:

1. the defects of the traditional sand table deduction and the modern intelligent platform deduction are that the sand table deduction and the intelligent platform deduction are combined, the force distribution is deduced through the sand table, and then the actual combat condition is simulated through simulation, so that the effect of actual combat confrontation can be achieved better;

2. by combining the variability of actual combat confrontation and combining a war game deduction system, decision can be made according to real-time situations in the actual combat confrontation process, mixed combat among multiple parties is simulated, and army species in sea, land and air are reasonably distributed and coordination is improved aiming at one combat;

3. according to the real-time situation in the confrontation process, after intelligent decision-making, the precision of striking can be improved, so that resources cannot be wasted, and the similarity between actual combat confrontation and simulated confrontation is improved.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: war and chess deduction intelligence decision-making equipment based on SaaS, including first box body and second box body, the side of first box body is equipped with information input platform, and first box body is inside to be equipped with first simulation sand table, the top surface of first simulation sand table is equipped with simulation sea and simulation land, braced frame is installed at the top of first simulation sand table, and braced frame's bottom and the top surface turning of first simulation sand table are connected, second simulation sand table is installed at first braced frame's top, the top surface and the bottom surface of first simulation sand table and second simulation sand table all are equipped with the removal simulation equipment.

Preferably, the inside bottom surface of mobile simulation equipment is equipped with the magnetic column, and the laminating is inhaled to magnetic column and first simulation sand table top surface, second simulation sand table bottom surface magnetism, the inside mike tom wheel that is equipped with of mobile simulation equipment, and mike tom wheel circular array is in the side of magnetic column.

Preferably, the bottom of simulation sea is equipped with first cylinder, the telescopic link has been inlayed to the inside of first cylinder, and telescopic link and first cylinder swing joint, and the top and the simulation sea bottom surface of telescopic link are connected, and the simulation sea is located four corners of simulation land, and first cylinder is all installed to the bottom of every simulation sea, and first cylinder installs the inside at first simulation sand table.

Preferably, be located the second simulation sand table bottom surface is equipped with flight simulation model and the second simulation sand table is connected, flight simulation model includes the air force model, be equipped with the second cylinder between air force model and the mobile simulation equipment, the inside telescopic link that is equipped with of second cylinder, and the telescopic link bottom and the air force model connection of second cylinder, and the tip and the mobile simulation equipment bottom surface of second cylinder are connected.

Preferably, the bottom of first box body and second box body is equipped with work platform, the carousel has been inlayed to work platform's top surface, and carousel and work platform swing joint, and the second box body installs the top surface at the carousel, the bottom of carousel is equipped with movable post, the bottom of activity post is equipped with movable base, and the both ends of activity post are connected with carousel, movable base respectively, and movable base installs the inside bottom surface at work platform, the surface mounting of activity post has the second drive wheel, the surface of second drive wheel is equipped with the conveyer belt, the tip of conveyer belt is equipped with first drive wheel, and first drive wheel and second drive wheel pass through conveyer belt swing joint, the bottom of first drive wheel is equipped with the motor, and the output shaft and the first drive wheel of motor are connected, and the inside bottom surface at work platform is installed to the motor.

Preferably, the war game deduction intelligent decision flow based on the SaaS is as follows:

sp 1: performing sand table deduction through a first simulation sand table and a second simulation sand table, and performing sand table deduction in three ranges of sea, land and air by matching with a simulation land on the top surface of the first simulation sand table, a simulation sea surface and an air force model on the bottom surface of the second simulation sand table;

sp 2: performing sand table deduction in the first box body, and performing holographic projection in the second box body;

sp 3: the method comprises the steps that simulation is conducted from a sand table to a SaaS system platform, and real-time situation and enemy static data of multi-party engagement are input through an information input platform;

sp 4: fusing the confrontation conditions of the own party, including the geographic position, the military strength distribution condition and the static data of the own party;

sp5, analyzing the real-time situation of the enemy, performing confrontation analysis, making confrontation decision and simulating the action process;

sp 6: the attack equipment fusing sea, land and air comprises fixed attack equipment with high moving speed and low moving speed, the attack equipment carries out allocation work aiming at the hitting action, the bullet avoiding action, the intercepting action and the detecting action, the actual combat deduction is carried out through a war game deduction system, and the result of simulating the actual combat is analyzed.

Preferably, the simulation action process after the countermeasure analysis is made in the real-time situation is as follows:

sp 1: after finding the enemy through investigation, the comprehensive conditions of the own party are fused, and when the enemy is in a favorable environment, the favorable environment comprises a geographical position and comprehensive strength;

sp 2: calculating the action logic of the enemy according to the action of the enemy, and when the hitting time of the enemy is greater than the sum of the bomb-avoiding time and the hitting time of the own party, the own party performs hitting first and then bomb-avoiding; when the hitting time of the enemy is less than the sum of the bomb-avoiding time and the hitting time of the own party, the own party avoids bomb firstly, and then the position is adjusted for analysis and hitting is carried out;

sp 3: after finding the enemy through investigation, the comprehensive conditions of the own party are fused, and when the enemy is in an unfavorable environment, the unfavorable environment comprises a geographical position and the comprehensive strength, and the enemy is not beneficial to the own party, the fighting mode is adjusted until the enemy is in a favorable environment.

(III) advantageous effects

The invention provides an intelligent strategy and chess deduction decision-making device and process based on SaaS. The method has the following beneficial effects:

1. according to the sand table training method, sand table training and simulation are combined, military judgment is carried out in the training process through intelligent decision, sand table training is carried out through a simulation sea surface, a simulation land and a flight simulation model in the sand table training process, sand table training can be carried out through different combination modes according to actual geographic positions, and in different combination modes, on one hand, the possibility of creating more actual combat in the sand table training can be improved, on the other hand, a preliminary training process can be carried out, and preliminary tactical arrangements are simulated, so that the method is more visual. In the exercise process, the first box body and the second box body are combined, the sand table exercise process is placed inside the first box body and can be displayed through the second box body in a holographic projection mode, the full-system projection adopts a touch cloning technology, and a three-dimensional display and simulated confrontation scene is achieved. After carrying out preliminary sand table exercise, carry out the simulation and fight emulation through the emulation system, through static data and the real-time situation of inputing enemy and own, own and enemy just can simulate the actual combat, again according to the condition of reality, for example the difference between enemy condition and the own condition, carry out the information renewal input through the information input platform, cooperation war game deduction system, can demonstrate the process of antagonism gradually, thereby can make simulation and actual antagonism more similar, improve and deduce the judgement condition in the actual combat antagonism.

2. The invention provides that in the process of actual combat, a collective combat mode is selected, on one hand, the collective combat mode can protect own party, on the other hand, the coordination in the process of actual combat can be improved, the deduction and judgment of actual combat fight can be more accurate due to reasonable task allocation, and in the process of actual combat fight, the number of enemies and the static data of each enemy are detected through detection actions, so that the information of the enemies is obtained in time. When only one enemy in the range is determined and only one attack device is arranged on the enemy, the successful one-time attack can be ensured by selecting interception and attack, when the attack device of the enemy is received, the own party in the range is immediately distributed in real time through a chess deduction system, but the action is immediately executed after the distribution by combining the current geographic position information, when the air confrontation is carried out, the interception and attack are usually carried out by adopting an air model, and when the confrontation is carried out on the land or on the sea according to the established interception path and attack path, the fixed and movable attack devices can be combined for cooperation with the attack; when a plurality of enemies are determined, whether on the sea, on the ground or in the air, all attack equipment suitable for countermeasures are adopted, countermeasures are carried out without being influenced by positions, task distribution is carried out according to the real-time situation of the enemies, the fighting mode is adjusted, and the sufficient coordination and cooperation can be guaranteed no matter one enemy or a plurality of enemies are faced.

3. The invention provides that in the process of fighting, resources are not wasted while the hitting precision is improved, in the process of fighting, whether the own party is in a favorable position or an unfavorable position is judged according to the real-time situation, when the own party is in the favorable position, the position information and the attack situation of the enemy are judged firstly aiming at aerial fighting, when the hitting time of the enemy is greater than the sum of the bomb-avoiding time and the hitting time of the own party, the own party preferentially selects hitting and then flies, and when the hitting time of the enemy is less than the sum of the bomb-avoiding time and the hitting time of the own party, direct flying avoidance is selected, and reasonable weapon distribution is realized; when the own party is at an unfavorable position, the flying-off route is judged according to the situation of the enemy when the own party is confronted in the air, when the own party cannot fly off in time, the own party in the range is informed to support, a cycloidal path is selected according to the situation of the enemy, and the assistance is waited.

Drawings

FIG. 1 is an isometric view of a war game deduction device according to the present invention;

FIG. 2 is a front view of a war game deduction apparatus according to the present invention;

FIG. 3 is a sectional view of a chess deducing apparatus of the present invention;

FIG. 4 is an enlarged view of the flight simulation model of FIG. 3;

FIG. 5 is a partial plan view of a chess deducing apparatus of the present invention;

FIG. 6 is a schematic perspective view of a mobile simulation device in the chess deducing device of the present invention;

FIG. 7 is a bottom view of a mobile simulation device in the chess deducing device of the present invention;

FIG. 8 is a flow chart of the war game deduction in the present invention;

FIG. 9 is a flow chart of the striking actions in the war game deduction of the present invention;

FIG. 10 is a flow chart of the battle mode in the war game deduction of the present invention.

Wherein, 1, an information input platform; 2. a first simulated sand table; 3. moving the simulation device; 4. a first case; 5. a working platform; 6. a second box body; 7. a turntable; 8. a support frame; 9. a flight simulation model; 10. a second simulated sand table; 11. a telescopic rod; 12. a first cylinder; 13. a first drive pulley; 14. a motor; 15. a conveyor belt; 16. a movable post; 17. a movable base; 18. a second transmission wheel; 19. a second cylinder; 20. an air force model; 21. simulating the sea surface; 22. simulating land; 23. a magnetic column; 24. a microphone wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-7, an intelligent war game deduction decision making device based on SaaS comprises a first box body 4 and a second box body 6, an information input platform 1 is arranged on the side face of the first box body 4, a first simulation sand table 2 is arranged inside the first box body 4, a simulation sea surface 21 and a simulation land 22 are arranged on the top face of the first simulation sand table 2, a supporting frame 8 is installed on the top of the first simulation sand table 2, the bottom end of the supporting frame 8 is connected with the corner of the top face of the first simulation sand table 2, a second simulation sand table 10 is installed on the top of the first supporting frame 8, and mobile simulation devices 3 are arranged on the top face and the bottom face of the first simulation sand table 2 and the bottom face of the second simulation sand table 10.

The inside bottom surface of mobile simulation equipment 3 is equipped with

magnetic column

23, and 2 top surfaces of magnetic column 23 and first simulation sand table, the laminating is inhaled to second simulation sand table 10 bottom surface magnetism, the inside miktom wheel 24 that is equipped with of mobile simulation equipment 3, and the circular array of miktom wheel 24 is in the side of magnetic column 23, the bottom of simulation sea 21 is equipped with first cylinder 12, telescopic link 11 has been inlayed to the inside of first cylinder 12, and telescopic link 11 and first cylinder 12 swing joint, and the top of telescopic link 11 and the connection of simulation sea 21 bottom surface, and simulation sea 21 is located four corners of simulation land 22, and first cylinder 12 is all installed to the bottom of every simulation sea 21, and first cylinder 12 is installed in the inside of first simulation sand table 2.

The first box body 4 and the second box body 6 are combined to form a holographic projector, the projection is carried out in the first box body 4, the display is carried out in the second box body 6, the holographic projector is a holographic projector cloned by touch sense, the holographic projection can be completely displayed, and the experience of touch sense can be realized. Through combining sand table deduction and analog simulation, during the sand table deduction, sand table exercise is carried out through the simulated sea surface 21, the simulated land 22 and the flight simulation model 9, when the sand table exercise is carried out, the information input platforms 1 are symmetrically arranged relative to the working platform 5, two persons respectively control the two information input platforms 1 to realize double-party multi-confrontation or multi-party confrontation in the first simulated sand table 2 and the second simulated sand table 10, through adding different numbers of the information input platforms 1, multi-party confrontation is realized, each information input platform 1 independently controls each mobile simulation device 3 to move, exercise is carried out through the movement of the mobile simulation devices 3, the sand table exercise can be carried out through different combination modes according to the actual geographic position, and different combination modes can improve the possibility of creating more actual combat in the sand table exercise on the one hand, on the other hand, the preliminary exercise process can be carried out, the preliminary troop arrangement is simulated, and the method is more intuitive. In the exercise process, the first box body 4 and the second box body 6 are combined, the exercise process of the sand table is placed inside the first box body 4 and can be displayed through the second box body 6 and displayed in a holographic projection mode, the tactile cloning technology is adopted in the global projection, and the projection is performed inside the second box body 6, so that the more three-dimensional exhibition and the simulated confrontation scene can be realized. After carrying out preliminary sand table exercise, carry out the simulation and fight the simulation through the simulation system, through inputting the static data and the real-time situation of enemy and own, own and enemy just can simulate the actual combat, again according to the actual condition, for example the difference between enemy condition and the own condition, carry out information update input through information input platform 1, cooperation war game deduction system, can demonstrate the process of antagonism gradually, thereby can make simulation and actual antagonism more similar, improve the deduction condition in the actual combat antagonism.

The simulated sea surface 21 is located around the simulated land 22, the simulated sea surfaces 21 around can be driven by the independent first cylinders 12, different simulated land 22 and simulated sea surface 21 are combined according to actual conditions, the mobile simulation devices 3 are arranged on the surfaces of the simulated land 22 and the simulated sea surface 21, the movement of each mobile simulation device 3 is controlled by a program, the program control adopts a control program system on the current market and adjusts the program system, the program control can rotate and horizontally move by matching with the microphone wheel 24, the mobile simulation devices 3 on the second simulated sand table 10 are equivalent to attack devices in the air, deduction is carried out in a magnetic attraction mode, and the mobile simulation devices 3 are prevented from falling off.

Lie in second simulation sand table 10 bottom surface and be equipped with flight simulation model 9, and flight simulation model 9 and second simulation sand table 10 are connected, and flight simulation model 9 includes air force model 20, is equipped with second cylinder 19 between air force model 20 and the mobile simulation equipment 3, the inside telescopic link 11 that is equipped with of second cylinder 19, and the telescopic link 11 bottom and the air force model 20 of second cylinder 19 are connected, and the tip and the mobile simulation equipment 3 bottom surface of second cylinder 19 are connected.

Through the cooperation of the mobile simulation equipment 3 and the second cylinder 19, the mobile simulation equipment 3 and the second simulation sand table 10 are deduced in a magnetic attraction mode, the air force model 20 can be driven to move up and down by the second cylinder 19, the air force model 20 can move between the first simulation sand table 2 and the second simulation sand table 10, and can move in a three-dimensional space, and the flight of the air force model 20 can be simulated in the moving process, so that the mobile simulation equipment 3 on the simulated land 22 and the simulated sea surface 21 is matched.

The bottom of the first box body 4 and the second box body 6 is provided with a working platform 5, the top surface of the working platform 5 is embedded with a turntable 7, the rotary table 7 is movably connected with the working platform 5, the second box body 6 is arranged on the top surface of the rotary table 7, the bottom of the rotary table 7 is provided with a movable column 16, the bottom of the movable column 16 is provided with a movable base 17, two ends of a movable column 16 are respectively connected with the turntable 7 and a movable base 17, the movable base 17 is arranged on the inner bottom surface of the working platform 5, a second driving wheel 18 is arranged on the surface of the movable column 16, a conveyor belt 15 is arranged on the surface of the second driving wheel 18, a first driving wheel 13 is arranged at the end part of the conveyor belt 15, and the first driving wheel 13 is movably connected with the second driving wheel 18 through a conveyor belt 15, the bottom of the first driving wheel 13 is provided with a motor 14, and an output shaft of the motor 14 is connected with the first driving wheel 13, and the motor 14 is installed at the inner bottom surface of the working platform 5.

Install carousel 7 in the bottom of second box body 6, carousel 7 can rotate, thereby drive the rotation of second box body 6, second box body 6 is transparent, show the projection in inside, the rotation of carousel 7 passes through motor 14 drive, motor 14 drive first drive wheel 13 rotates, first drive wheel 13 and second drive wheel 18 rotate through conveyer belt 15, second drive wheel 18 drives the rotation of activity post 16, thereby drive the rotation of carousel 7, the rotation of second box body 6 can make the omnidirectional show of projection, and do not need manual operation.

Example two:

referring to fig. 8, an intelligent strategy-chess deduction decision flow based on SaaS is as follows:

sp 1: performing sand table deduction through the first simulation sand table 2 and the second simulation sand table 10, and performing sand table deduction in three ranges of sea, land and air by matching with a simulation land 22 on the top surface of the first simulation sand table 2, a simulation sea surface 21 and an air force model 20 on the bottom surface of the second simulation sand table 10;

sp 2: performing sand table deduction inside the first box body 4, and performing holographic projection inside the second box body 6;

sp 3: the method comprises the steps that a sand table deduces to a SaaS system platform for simulation, and real-time situation and enemy static data of multi-party engagement are input through an information input platform 1;

sp5, analyzing real-time situation of an enemy, performing confrontation analysis, making confrontation decision and simulating an action process;

Referring to fig. 10, in the actual combat process, a collective combat mode is selected, on one hand, the collective combat mode can protect own party, on the other hand, coordination in the actual combat process can be improved, reasonable task distribution can enable the actual combat fight to win more easily, and in the actual combat fight process, the number of enemies and static data of each enemy are detected through detection actions, so that information of the enemies is obtained in time. When only one enemy in the range is determined, and the enemy only has one attack device, the interception and then the attack are selected, so that the success of one-time attack can be ensured, when the attack device of one enemy is received, the own party in the range immediately performs real-time distribution through a chess deduction system, but needs to combine the current geographic position information, and immediately performs action after the distribution is completed, during air confrontation, an air machine is usually adopted for interception and attack, the interception mainly limits the moving range of the enemy according to the established interception path and attack path, and then the attack is matched, so that the accuracy can be improved, and when the enemy performs confrontation on land or sea, the fixed and movable attack devices can be combined for matched attack; when determining that the enemy has a plurality of attacking devices, formulating a self fighting mode according to the position of the enemy, distributing tasks according to the real-time position of the self attacking devices, and executing the self according to the real-time distributed tasks in a matched manner, so that the coordination is improved; when a plurality of enemies are determined, whether on the sea, on the ground or in the air, all attack equipment suitable for countermeasures are adopted, countermeasures are carried out without being influenced by positions, task allocation is carried out according to the real-time situation of the enemies, the fighting mode is adjusted, and sufficient coordination and cooperation can be guaranteed no matter one enemy or a plurality of enemies face;

for single-soldier combat, for example, for single-soldier combat of army, the mobile simulation devices 3 on the surface of the second simulated sand table 10 and the simulated sea surface 21 are closed, for single-soldier combat of navy, the mobile simulation devices 3 in the simulated land 22 and the second simulated sand table 10 are closed, and for single-soldier combat of air force, the mobile simulation devices 3 in the first simulated sand table 2 are closed.

Example three:

referring to fig. 9, the simulated action process after the countermeasure analysis is made in the real-time situation is as follows:

In the intelligent decision making process, a server is installed in an information input platform, the server collects implementation situation and static data of multi-party engagement based on a SaaS system, and the server provides support for information analysis of the information input platform. In the fighting process, the hitting precision is improved, meanwhile, resources are not wasted, in the fighting process, whether the own party is in a favorable position or an unfavorable position is judged according to the real-time situation, when the own party is in the favorable position and is in air fighting, the position information and the attack situation of the enemy are judged firstly, when the hitting time of the enemy is greater than the sum of the bullet-avoiding time and the hitting time of the own party, the own party preferentially selects hitting and then flicks, the fighting time can be accurately shortened, when the hitting time of the enemy is less than the sum of the bullet-avoiding time and the hitting time of the own party, direct flicking is selected, after flicking, the position is readjusted for fighting, when the fighting on the ground and sea surface is aimed, because in the fighting process, the attacking equipment is generally fixed or slow moving equipment relative to the air attacking equipment, in the fighting process, the interception of the missile is matched, and an attack device in the air is also required to support, so that the reasonable weapon distribution is realized; when the own party is at an unfavorable position, the flying-off route is judged according to the situation of the enemy when the own party is confronted in the air, when the own party cannot fly off in time, the own party in the range is informed to support, a cycloidal path is selected according to the situation of the enemy, and the assistance is waited.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Military chess deduction intelligent decision-making equipment based on SaaS comprises a first box body (4) and a second box body (6) of a cabinet body, and is characterized in that: an information input platform (1) is arranged on the side face of the first box body (4), a first simulation sand table (2) is arranged inside the first box body (4), a simulation sea surface (21) and a simulation land (22) are arranged on the top face of the first simulation sand table (2), a supporting frame (8) is installed at the top of the first simulation sand table (2), the bottom end of the supporting frame (8) is connected with the corner of the top face of the first simulation sand table (2), a second simulation sand table (10) is installed at the top of the first supporting frame (8), and mobile simulation equipment (3) is arranged on the top face and the bottom face of each of the first simulation sand table (2) and the second simulation sand table (10); the bottom of the first box body (4) and the bottom of the second box body (6) are provided with a working platform (5), the top surface of the working platform (5) is embedded with a turntable (7), the turntable (7) is movably connected with the working platform (5), the second box body (6) is arranged on the top surface of the turntable (7), the bottom of the turntable (7) is provided with a movable column (16), the bottom of the movable column (16) is provided with a movable base (17), two ends of the movable column (16) are respectively connected with the turntable (7) and the movable base (17), the movable base (17) is arranged on the inner bottom surface of the working platform (5), the surface of the movable column (16) is provided with a second driving wheel (18), the surface of the second driving wheel (18) is provided with a conveying belt (15), the end part of the conveying belt (15) is provided with a first driving wheel (13), and the first driving wheel (13) is movably connected with the second driving wheel (18) through the conveying belt (15), the bottom of the first transmission wheel (13) is provided with a motor (14), an output shaft of the motor (14) is connected with the first transmission wheel (13), and the motor (14) is installed on the inner bottom surface of the working platform (5).

2. The SaaS-based chess deduction intelligent decision-making equipment as claimed in claim 1, wherein: the inside bottom surface of removal emulation equipment (3) is equipped with magnetic column (23), and magnetic column (23) and first simulation sand table (2) top surface, the laminating is inhaled to second simulation sand table (10) bottom surface magnetism, remove emulation equipment (3) inside is equipped with mike tom wheel (24), and mike tom wheel (24) circular array in the side of magnetic column (23).

3. The SaaS-based chess deduction intelligent decision-making equipment as claimed in claim 1, wherein: the bottom of simulation sea (21) is equipped with first cylinder (12), telescopic link (11) have been inlayed to the inside of first cylinder (12), and telescopic link (11) and first cylinder (12) swing joint, and the top and the simulation sea (21) bottom surface of telescopic link (11) are connected, and simulate sea (21) and be located four corners of simulation land (22), and first cylinder (12) are all installed to the bottom of every simulation sea (21), and the inside at first simulation sand table (2) is installed in first cylinder (12).

4. The SaaS-based chess deduction intelligent decision-making equipment as claimed in claim 1, wherein: be located second simulation sand table (10) bottom surface is equipped with flight simulation model (9), and flight simulation model (9) and second simulation sand table (10) are connected, flight simulation model (9) include air force model (20), be equipped with second cylinder (19) between air force model (20) and the mobile simulation equipment (3), second cylinder (19) inside is equipped with telescopic link (11), and telescopic link (11) bottom and the air force model (20) of second cylinder (19) are connected, and the tip and the mobile simulation equipment (3) bottom surface of second cylinder (19) are connected.

5. An intelligent strategy-chess-pursuing decision-making process based on SaaS, which is used in intelligent strategy-chess-pursuing decision-making equipment as claimed in any one of claims 1-4, and is characterized in that: the intelligent strategy chess deduction decision flow is as follows:

sp 1: performing sand table deduction through a first simulation sand table (2) and a second simulation sand table (10), and performing sand table deduction in three ranges of sea, land and air by matching with a simulation land (22) on the top surface of the first simulation sand table (2), a simulation sea surface (21) and an air force model (20) on the bottom surface of the second simulation sand table (10);

sp 2: performing sand table deduction in the first box body (4), and performing holographic projection in the second box body (6);

sp 3: the method comprises the steps that simulation is carried out on a SaaS system platform through sand table deduction, and real-time situation and enemy static data of multi-party engagement are input through an information input platform (1);

6. The chess pursuing intelligent decision flow based on SaaS as claimed in claim 5, characterized in that: the simulation action process after the countermeasure analysis in the real-time situation is as follows: