CN114118757A - Weapon sexuality collaborative optimization method and system with security as center - Google Patents

Abstract

The invention relates to a method and a system for weapon sexuality collaborative optimization with security as a center. The method comprises the following steps: converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering development method; decomposing and distributing the guaranteed quantitative indexes to obtain use guaranteed indexes and maintenance guaranteed indexes; planning a guaranteed design scheme according to the guaranteed quantitative index and the guaranteed qualitative requirement based on historical guaranteed information; making a security design criterion based on the security design scheme; obtaining a use guarantee design scheme according to the use guarantee index and the guarantee design criterion in combination with product function and performance design; and designing according to the maintenance security index and the security design criterion and combining with the product function and performance to obtain a maintenance security design scheme. The method is used for solving the problems that the equipment forming guarantee capability is slow and the guarantee capability cannot be improved in the prior art.

Description

Weapon sexuality collaborative optimization method and system with security as center

Technical Field

The invention relates to the technical field of weapon manufacturing, in particular to a weapon sexuality collaborative optimization method and a weapon sexuality collaborative optimization system taking security as a center.

Background

As equipment for coping with the development and change of safety situations around China and effectively performing missions and tasks given by military strategy guidelines under new situations, a new generation guided missile weapon system not only needs to have accurate hitting capability, but also needs to have good combat readiness integrity, maneuverability and rapid action capability. The realization of the capabilities not only depends on the performance design of a guided missile weapon system, but also depends on the sexuality design with equipment centered on security to a great extent. In the traditional guided missile development process, the degree of attention on sexuality design and analysis work is insufficient, so that the equipment has 'congenital deficiency' in sexuality such as security after delivery to an army, the actual combat capability is not strong, and the equipment can only be compensated by adopting a supplement and shortage matching mode, so that the problems existing in equipment guarantee work are solved, the equipment is delayed in guarantee capability, and even a plurality of adverse consequences such as incapability of improving the guarantee capability are caused.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a weapon sexuality collaborative optimization method and system taking security as a center.

In order to achieve the purpose, the invention provides the following scheme:

a method for cooperative optimization of security-centric weapon sexuality, comprising:

converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering development method; the guaranteed technical requirements include: a guaranteed quantitative index and a guaranteed qualitative requirement;

decomposing and distributing the guaranteed quantitative indexes to obtain use guaranteed indexes and maintenance guaranteed indexes;

planning a guaranteed design scheme according to the guaranteed quantitative index and the guaranteed qualitative requirement based on historical guaranteed information;

making a security design criterion based on the security design scheme;

obtaining a use guarantee design scheme according to the use guarantee index and the guarantee design criterion in combination with product function and performance design;

and designing according to the maintenance security index and the security design criterion and combining with the product function and performance to obtain a maintenance security design scheme.

Preferably, a quality engineering deployment method is adopted to convert the actual combat requirements of the weaponry into the guaranteed technical requirements; the guaranteed technical requirements include: the method comprises the following steps of (1) ensuring quantitative indexes and ensuring qualitative requirements, and then:

constructing a first planning matrix by taking actual combat requirements of weaponry as columns and taking the guaranteed qualitative requirements as rows; the first planning matrix is used for representing the correlation degree of the weapons equipment actual combat requirements and the guaranteed qualitative requirements;

and screening the qualitative requirements of the security according to the first planning matrix.

Preferably, based on historical supportability information, planning a supportability design scheme according to the supportability quantitative index and the supportability qualitative requirement, and then:

constructing a second planning matrix by taking the guaranteed design scheme as a row and taking the guaranteed qualitative requirement as a column; the second planning matrix is used for representing the correlation degree of the qualitative requirement of the security and the design scheme of the security;

and screening the security design scheme according to the second planning matrix.

Preferably, the method further comprises the following steps:

and planning a guarantee scheme based on the use guarantee design scheme and the maintenance guarantee design scheme.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

the weapon sexuality collaborative optimization method with the security as the center provided by the invention is oriented to the requirement of improving the actual combat capability of the guided missile, converts the actual combat requirement into the requirement of designing the security characteristics, develops the collaborative optimization design according to the incidence relation among the requirements of the security characteristics, provides scientific theory, method and means for improving the fighting capacity and the security capacity of the guided missile weapon, and further solves the problems that the equipment forming the security capacity is slow and the security capacity cannot be improved in the prior art.

Corresponding to the method for collaborative optimization of six weapons with security as the center, the invention also provides a system for collaborative optimization of six weapons with security as the center, which comprises:

the conversion module is used for converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering deployment method; the guaranteed technical requirements include: a guaranteed quantitative index and a guaranteed qualitative requirement;

the decomposition and distribution module is used for decomposing and distributing the guaranteed quantitative indexes to obtain use guaranteed indexes and maintenance guaranteed indexes;

the planning module is used for planning a guaranteed design scheme according to the guaranteed quantitative index and the guaranteed qualitative requirement based on historical guaranteed information;

a specifying module for formulating a design rule based on the design scheme;

the first design module is used for obtaining a use security design scheme by combining product function and performance design according to the use security index and the security design criterion;

and the second design module is used for obtaining a maintenance security design scheme by combining product function and performance design according to the maintenance security index and the security design criterion.

Preferably, the method further comprises the following steps:

the first planning matrix construction module is used for constructing a first planning matrix by taking actual combat requirements of weaponry as columns and taking the guaranteed qualitative requirements as rows; the first planning matrix is used for representing the correlation degree of the weapons equipment actual combat requirements and the guaranteed qualitative requirements;

and the first screening module is used for screening the qualitative requirement of the guarantee according to the first planning matrix.

Preferably, the method further comprises the following steps:

the second planning matrix construction module is used for constructing a second planning matrix by taking the guaranteed design scheme as a row and taking the guaranteed qualitative requirement as a column; the second planning matrix is used for representing the correlation degree of the qualitative requirement of the security and the design scheme of the security;

and the second screening module is used for screening the security design scheme according to the second planning matrix.

Preferably, the method further comprises the following steps:

and the guarantee scheme planning module is used for planning a guarantee scheme based on the use guarantee design scheme and the maintenance guarantee design scheme.

The technical effect achieved by the system for collaborative optimization of six weapons with security as the center provided by the invention is the same as that of the method for collaborative optimization of six weapons with security as the center provided by the invention, and therefore, the details are not repeated herein.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a flow chart of a method for collaborative optimization of security-centric weapon sexuality provided by the present invention;

FIG. 2 is a diagram illustrating an implementation architecture of a security-centric weapon sexuality collaborative optimization method according to an embodiment of the present invention;

FIG. 3 is a hierarchical relationship diagram of the supportability index provided by the embodiment of the present invention;

FIG. 4 is a diagram of a weapon security feature co-design data exchange model provided by an embodiment of the present invention;

FIG. 5 is a cross-sectional view of an exemplary mission of a guided missile as provided by an embodiment of the invention;

FIG. 6 is a cross-sectional view of an exemplary mission of a special vehicle of the guided missile weapon system provided by the embodiment of the invention;

FIG. 7 is a diagram of an exemplary secured activity of a guided missile weapon system provided by an embodiment of the present invention;

FIG. 8 is a flowchart of the simulation-based Provisioning resource optimization provided by the embodiment of the present invention;

fig. 9 is a schematic structural diagram of a security-centric weapon sexuality collaborative optimization system provided by the present invention.

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 invention aims to provide a weapon sexuality collaborative optimization method and a weapon sexuality collaborative optimization system with security as a center, and the method and the system are used for solving the problems that equipment forming security capability is slow and the security capability cannot be improved in the prior art.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1, the cooperative optimization method for sexuality of weapons with security as the center provided by the present invention includes:

step 100: and converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering development method. The guaranteed technical requirements include: the guaranteed quantitative index and the guaranteed qualitative requirement.

Step 101: and decomposing and distributing the guaranteed quantitative indexes to obtain the use guaranteed indexes and the maintenance guaranteed indexes.

Step 102: and planning a guaranteed design scheme according to guaranteed quantitative indexes and guaranteed qualitative requirements based on historical guaranteed information.

Step 103: and making a security design criterion based on the security design scheme.

Step 104: and obtaining a use guarantee design scheme according to the use guarantee index and the guarantee design rule in combination with the product function and performance design.

Step 105: and designing according to the maintenance guarantee indexes and the guarantee design criteria and combining the product functions and the performance to obtain a maintenance guarantee design scheme.

In order to improve the accuracy of weapon sexuality collaborative optimization, as another embodiment, the method for weapon sexuality collaborative optimization with security as center provided above further includes, after the step 100:

and constructing a first planning matrix by taking the actual combat requirements of the weaponry as columns and the qualitative guarantee requirements as rows. The first planning matrix is used for representing the correlation degree of actual combat requirements and qualitative guarantee requirements of the weaponry.

And screening the qualitative requirements of the security according to the first planning matrix.

Further, in order to improve the accuracy of weapon sexuality collaborative optimization, as another embodiment, the method for weapon sexuality collaborative optimization with security as center provided above according to the present invention further includes, after step 102:

and constructing a second planning matrix by taking the guaranteed design scheme as a row and taking the guaranteed qualitative requirement as a column. The second planning matrix is used to represent the degree of correlation between the guaranteed qualitative requirements and the guaranteed design solution.

And screening a security design scheme according to the second planning matrix.

In order to provide scientific theory, method and means for improving the fighting capacity and the security of guided missile weapon equipment, as another embodiment, the method for collaborative optimization of the sexuality of the weapon with the security as the center provided by the invention further comprises the following steps:

and planning a guarantee scheme based on the use guarantee design scheme and the maintenance guarantee design scheme.

An implementation process of the method for collaborative optimization of sexuality of security-centric weapons provided by the present invention is described below by taking an implementation framework shown in fig. 2 as an example.

Aiming at the comprehensive guarantee work requirement of the guided missile under the actual combat condition, the design of good guarantee weapon equipment and the use and maintenance of the good guarantee equipment are taken as targets, and a sexuality collaborative optimization work flow is provided from two aspects of sexuality design and guarantee scheme planning which take guarantee characteristics as the center, and the general idea is shown in figure 2.

The method is based on the actual combat requirements of guided missiles, and the actual combat requirements are converted into the technical requirements of qualitative and quantitative guarantee through a quality engineering expansion method. And further combining similar model security information to convert security technical requirements into security design schemes, making security design criteria, and decomposing security quantitative requirements into specific designable use security indexes and maintenance security indexes. Based on the guarantee requirement and the guarantee design criterion, the collaborative design of the use guarantee, the maintenance guarantee, the product function and the performance is developed.

When the design of product security and performance is advanced in stages (generally, when the design index is closed loop), the planning of the security scheme is developed. On the basis of the task profile analysis of the equipment, the method of maintenance analysis, use and maintenance task analysis and the like taking reliability as the center is comprehensively utilized to plan the use and maintenance guarantee flow and guarantee resources of the equipment. On the basis, relevant parameters of the guarantee of the equipment and the operation use flow of the equipment are used as input, and the guarantee strategy of the guided missile in normal time and wartime is planned and optimized by adopting a simulation analysis method.

Based on the design concept, the implementation process of the weapon sexuality collaborative optimization method taking the security as the center provided by the invention is as follows: the method comprises the steps of analyzing actual combat requirements, determining security requirements, making security design schemes, decomposing/distributing security indexes, using security design, maintaining security design, analyzing using and maintaining security flow, maintaining analysis with reliability as a center and planning security resources. The following is a detailed description:

a) actual combat demand analysis

In order to ensure that the product design can meet the actual combat requirements provided by the user, firstly, relevant actual combat requirements are defined and classified, and proper weight is given to each requirement by methods such as expert scoring and the like so as to reflect the importance degree of the requirements. Taking a certain guided missile as an example, by carrying out survey analysis on a user, inducing and classifying requirements related to the security design in actual combat requirements of the user, wherein the sum of importance weights of all requirements sequenced according to importance is 1, and the requirements can be as follows:

(1) durable and few faults (the weight of the importance degree of the requirement is 0.22)

(2) Convenient to operate and use (the weight of the importance degree of the requirement is 0.18)

(3) Short time of technical preparation (weight of importance of demand 0.14)

(4) Fault detection is accurate and rapid (demand importance weight is 0.11)

(5) Long preventive maintenance cycle (importance of demand weight 0.09)

(6) Ensuring less equipment variety and quantity (demand importance weight 0.08)

(7) Spare parts with less variety and quantity (demand importance weight 0.06)

(8) Easy maintenance (requirement importance weight 0.05)

(9) Preventive maintenance items are few (the weight of importance of demand is 0.04)

(10) Repairability maintenance time is short (demand importance weight is 0.02)

(11) Long service life (demand importance weight 0.01)

b) Determining a qualitative requirement for assurance

On the basis of defining the actual combat requirements of the users, professional technicians are organized to determine corresponding guaranteed technical requirements (guaranteed quantitative indexes and guaranteed qualitative requirements) according to the actual combat requirements of the users. The actual combat requirements of the users are used as vertical columns of the planning matrix, and the corresponding product security technical requirements are used as horizontal rows of the matrix to form the planning matrix, as shown in table 1. The planning matrix represents the degree to which the supportability technical requirements correlate with the user's needs. In table 1, "●" indicates a strong correlation, and the weight is taken to be 9. ". o" indicates a medium correlation, and the weight is taken to be 3. ". indicates a weak correlation, the weight is taken to be 1.

Table 1 matrix table for planning guaranteed technical requirements and user guaranteed requirements

And taking the sum of the product of the weight of the association degree of the technical requirement corresponding to the actual combat requirement of the user and the weight of the actual combat requirement of the user as the importance of the technical requirement. Taking a certain guided missile as an example, the technical requirements of six aspects, namely, technical preparation time, mean fault interval time, regular inspection period, fault detection rate, fault isolation rate and mean repair time, are relatively important, higher index requirements are determined, the technical requirements are mainly monitored in the design process and are regularly compared with target values.

c) Making a design plan for security

According to the problems of the guaranteed technical requirements and the guaranteed design of other models, each professional technical staff determines the guaranteed design scheme to be adopted, the guaranteed technical requirements are used as the vertical columns of the planning matrix, and the corresponding guaranteed design scheme is used as the horizontal rows of the matrix to form the planning matrix, as shown in table 2. The calculation method of the importance of the design scheme for the security is the same as that of the technical requirement for the security in table 1, and the calculation result is shown in table 2.

Table 2 supportability design scheme and supportability technical requirement planning matrix table

According to the importance of the guaranteed design scheme, the design simplification, the BIT design, the technical position nondissolving test, the automatic data interpretation design, the factory design of the reserve bomb and the online calibration design of the inertial unit are focused when the guaranteed design is developed.

d) Guaranteed index decomposition/distribution

And decomposing the guaranteed qualitative requirements provided by the users, distributing the quantitative requirements provided in the table 2, and decomposing the system-level guaranteed requirements into subsystems and single-machine products to serve as bases for designing and checking the subsystems and the single-machine products. The hierarchical relationship of the supportability indexes is shown in fig. 3, and the methods for decomposing and distributing the indexes such as reliability, maintainability, testability and the like are more, and are not described in detail in the present invention. In order to meet the design requirements of indexes, the equipment needs to be further designed for use guarantee and maintenance guarantee.

e) Design for use security

In order to meet the index requirements, use guarantee design is carried out. The use security is the design which should be considered in the normal operation and use process of the equipment, and the equipment is developed mainly according to the security design scheme. Taking a certain guided missile as an example, the technical requirement with larger relevance to the use guarantee requirement of equipment is the technical preparation time through actual combat requirement analysis. Therefore, in developing a design for use assurance, the design for the function and performance of a product should be developed at the core of shortening the technical preparation time of equipment. As can be seen from table 2, in order to shorten the technical preparation time, it is important to develop a self-service pop-up factory design, a non-decomposition test and an automatic data interpretation design, and to bring the relevant requirements into the task book or the development contract, and to perform a key review when the product is accepted. As can be seen from table 2, there is also moderate correlation between the ergonomic design and the technical preparation time, and it should be focused on reducing the technical level requirement on the user and the convenience and comfort of operation, reducing or avoiding the possibility of human operation errors, and improving the generality and standardization level of resources and equipment. The requirements are clear through the guaranteed design criteria, the guaranteed design criteria are declared to designers at the beginning of model development, and the conformity condition of the related product guaranteed design criteria is checked at the important node.

f) Design for maintenance security

In order to meet the index requirements, maintenance support design and guarantee design needs to be developed. The maintenance security design characteristics comprise reliability, maintainability, testability and the like, indexes of the maintainability design characteristics essentially have certain correlation characteristics, and coupling relation exists between works. When the product design is developed, the collaborative design of the guarantee, the reliability, the maintainability, the testability and the like needs to be developed synchronously. The invention combs the cooperative relationship between maintenance and security design work by two ways of realizing qualitative and quantitative requirements and identifying and controlling system weak links. By combing models of reliability, maintainability and testability modeling, prediction, distribution and the like, a weapon security characteristic collaborative design data relation model is established from the aspects of design requirement decomposition, requirement realization and requirement verification, as shown in fig. 4. The assurance characteristics collaborative data model describes data transfer relationships between related work items.

g) Usage and maintenance support flow analysis

According to the operating requirements of tactical weapon operation, events such as combat readiness, duty, operation, maintenance and the like which are experienced after equipment is delivered to finish an operation task are described in a flow chart form to form a task profile. Taking a certain guided missile as an example, the typical mission profile after the equipment is delivered to the army is shown in fig. 5, and the typical mission profile of a special vehicle is shown in fig. 6.

h) Reliability-centric repair analysis

And (4) on the basis of the FMEA result, applying a logic decision method through reliability-centered maintenance analysis (RCMA) to determine preventive maintenance work items to be carried out in the whole life cycle of the weapon system. Taking the launch platform hydraulic system as an example, the preventive maintenance work items are shown in table 3.

TABLE 3 preventive maintenance work item table for hydraulic system of launching platform

i) Guaranteed resource planning

A typical guaranteed activity breakdown of the missile weapon system life cycle is shown in figure 7. On the basis of using and maintaining the process analysis of the guarantee, and the maintenance analysis with reliability as the center, the typical process is decomposed into independent guarantee activities according to the mode of figure 7 and table 4, and each guarantee activity is decomposed item by item, for example, on duty, the guarantee activities are decomposed into motor transportation, standby and the like, and annual test activities are decomposed into various activities in table 4, thereby laying the foundation for developing the guarantee resource planning.

Aiming at each planned safeguard activity in the figure 6, the planned operation work is refined and decomposed one by one, and then the demands of the safeguard personnel, the safeguard time and the safeguard resources are determined. The results of decomposition of the annual power-on test are shown in Table 4.

Table 4 year power-on test activity decomposition table

Serial number	Guarantee (security)Activity execution link	Securing resource requirements
			1	Visual inspection	Is free of
2	Test state preparation	Comprehensive test equipment for full-elastic frame vehicle and ground
			3	Inertial measurement unit calibration	Ground comprehensive test equipment
4	One-touch testing	Ground comprehensive test equipment and signal simulator
			5	Test data and result collection management	Ground comprehensive test equipment and information management system

The method comprises the steps of simulating activities such as use of equipment in various tasks, maintenance of components, supply of guaranteed resources and the like by establishing an equipment guarantee simulation model, extracting logical association relations among training tasks, equipment sexuality, guaranteed resources, guarantee organizations, use and maintenance activities by adopting a discrete event simulation method, and simulating the guarantee activities such as use and maintenance of the equipment in various tasks. The efficiency of the whole guarantee system is calculated through long-time or multiple times of simulation execution of the guarantee activities in normal time and wartime, evaluation analysis is carried out on the equipment use availability, the equipment demand quantity, the task success rate, the spare part/guarantee equipment/personnel satisfaction rate, the utilization rate and the like, weak links can be found through sensitivity analysis, an improvement optimization suggestion of the equipment and the guarantee system is provided, and guarantee resources are planned, as shown in fig. 8.

Based on the above-mentioned non-description, the present invention has the following advantages:

1. the six-property collaborative optimization work flow of the guided missile facing the actual combat and taking the security as the center is provided. The user security requirements are converted into a security design scheme, and a security and reliability, maintainability and testability collaborative design flow and a data model are established.

2. A planning method of a guidance missile equipment guarantee scheme based on an operational use process is provided. On the basis of task profile analysis, a guarantee flow and guarantee resources are determined through maintenance analysis and other security analysis taking reliability as a center. And identifying weak links of the guarantee scheme and optimizing the guarantee scheme through simulation analysis.

In addition, corresponding to the method for collaborative optimization of six weapons with security as the center provided above, the present invention further provides a system for collaborative optimization of six weapons with security as the center, as shown in fig. 9, the system includes:

the conversion module 1 is used for converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering deployment method. The guaranteed technical requirements include: the guaranteed quantitative index and the guaranteed qualitative requirement.

And the decomposition and distribution module 2 is used for decomposing and distributing the guaranteed quantitative indexes to obtain the use guaranteed indexes and the maintenance guaranteed indexes.

And the planning module 3 is used for planning a guaranteed design scheme according to the guaranteed quantitative index and the guaranteed qualitative requirement based on the historical guaranteed information.

And the specifying module 4 is used for formulating the supportability design rule based on the supportability design scheme.

And the first design module 5 is used for obtaining a use security design scheme by combining product function and performance design according to the use security index and security design criterion.

And the second design module 6 is used for obtaining a maintenance security design scheme by combining the product function and performance design according to the maintenance security index and the security design criterion.

In order to improve the accuracy of weapon sexuality collaborative optimization, as another embodiment, the system for weapon sexuality collaborative optimization with security as center provided above may further include:

the first planning matrix construction module is used for constructing a first planning matrix by taking the actual combat requirement of the weaponry as a column and taking the guaranteed qualitative requirement as a row. The first planning matrix is used for representing the correlation degree of actual combat requirements and qualitative guarantee requirements of the weaponry.

And the first screening module is used for screening the qualitative requirements of the guarantee according to the first planning matrix.

Further, in order to improve the accuracy of weapon sexuality collaborative optimization, as another embodiment, the system for weapon sexuality collaborative optimization with security as the center provided by the present invention may further include:

and the second planning matrix construction module is used for constructing a second planning matrix by taking the guaranteed design scheme as a row and taking the guaranteed qualitative requirement as a column. The second planning matrix is used to represent the degree of correlation between the guaranteed qualitative requirements and the guaranteed design solution.

And the second screening module is used for screening the security design scheme according to the second planning matrix.

In order to provide scientific theories, methods and means for the fighting capacity and the security improvement of guided missile weapons, as another embodiment, the system for cooperative optimization of the sexuality of the weapons with security as the center provided by the invention can further comprise:

and the guarantee scheme planning module is used for planning the guarantee scheme based on the use guarantee design scheme and the maintenance guarantee design scheme.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the system disclosed by the embodiment, the description is relatively simple because the system corresponds to the method disclosed by the embodiment, and the relevant points can be referred to the method part for description.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (8)

1. A method for cooperative optimization of weapon sexuality centered on security is characterized by comprising the following steps:

converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering development method; the guaranteed technical requirements include: a guaranteed quantitative index and a guaranteed qualitative requirement;

decomposing and distributing the guaranteed quantitative indexes to obtain use guaranteed indexes and maintenance guaranteed indexes;

planning a guaranteed design scheme according to the guaranteed quantitative index and the guaranteed qualitative requirement based on historical guaranteed information;

making a security design criterion based on the security design scheme;

obtaining a use guarantee design scheme according to the use guarantee index and the guarantee design criterion in combination with product function and performance design;

and designing according to the maintenance security index and the security design criterion and combining with the product function and performance to obtain a maintenance security design scheme.

2. The cooperative optimization method for weapons sexuality centered on security as claimed in claim 1, wherein a quality engineering deployment method is adopted to convert weapons combat requirements into security technical requirements; the guaranteed technical requirements include: the method comprises the following steps of (1) ensuring quantitative indexes and ensuring qualitative requirements, and then:

constructing a first planning matrix by taking actual combat requirements of weaponry as columns and taking the guaranteed qualitative requirements as rows; the first planning matrix is used for representing the correlation degree of the weapons equipment actual combat requirements and the guaranteed qualitative requirements;

and screening the qualitative requirements of the security according to the first planning matrix.

3. The method of claim 1, wherein a security-centric weapon sexuality collaborative optimization is planned based on historical security information according to the quantitative indicators of security and the qualitative requirements of security, and thereafter further comprising:

constructing a second planning matrix by taking the guaranteed design scheme as a row and taking the guaranteed qualitative requirement as a column; the second planning matrix is used for representing the correlation degree of the qualitative requirement of the security and the design scheme of the security;

and screening the security design scheme according to the second planning matrix.

4. The method of claim 1, further comprising:

and planning a guarantee scheme based on the use guarantee design scheme and the maintenance guarantee design scheme.

5. A system for security-centric weapon sexuality co-optimization, comprising:

the conversion module is used for converting the actual combat requirements of the weaponry into the guaranteed technical requirements by adopting a quality engineering deployment method; the guaranteed technical requirements include: a guaranteed quantitative index and a guaranteed qualitative requirement;

the decomposition and distribution module is used for decomposing and distributing the guaranteed quantitative indexes to obtain use guaranteed indexes and maintenance guaranteed indexes;

the planning module is used for planning a guaranteed design scheme according to the guaranteed quantitative index and the guaranteed qualitative requirement based on historical guaranteed information;

a specifying module for formulating a design rule based on the design scheme;

the first design module is used for obtaining a use security design scheme by combining product function and performance design according to the use security index and the security design criterion;

and the second design module is used for obtaining a maintenance security design scheme by combining product function and performance design according to the maintenance security index and the security design criterion.

6. The system of claim 5, further comprising:

the first planning matrix construction module is used for constructing a first planning matrix by taking actual combat requirements of weaponry as columns and taking the guaranteed qualitative requirements as rows; the first planning matrix is used for representing the correlation degree of the weapons equipment actual combat requirements and the guaranteed qualitative requirements;

and the first screening module is used for screening the qualitative requirement of the guarantee according to the first planning matrix.

7. The system of claim 5, further comprising:

the second planning matrix construction module is used for constructing a second planning matrix by taking the guaranteed design scheme as a row and taking the guaranteed qualitative requirement as a column; the second planning matrix is used for representing the correlation degree of the qualitative requirement of the security and the design scheme of the security;

and the second screening module is used for screening the security design scheme according to the second planning matrix.

8. The system of claim 5, further comprising:

and the guarantee scheme planning module is used for planning a guarantee scheme based on the use guarantee design scheme and the maintenance guarantee design scheme.

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