CN115330143A - Interactive reconfigurable aerospace measurement and control network operation efficiency evaluation method and system - Google Patents

Abstract

The invention discloses an interactive reconfigurable operation efficiency evaluation method and system for a space measurement and control network, wherein the method comprises the steps of creating a blank evaluation task or creating an evaluation task based on an evaluation task template, finishing basic information configuration of the evaluation task in an interactive mode, finishing index system construction in a recombination mode, finishing evaluation algorithms of system efficiency indexes and intermediate layer capacity indexes and selection and configuration of weight algorithms in an interactive mode, selecting according to the intermediate layer capacity indexes, carrying out interactive configuration on normalization parameters of the lower measurable indexes in sequence, confirming and storing after configuration is finished, executing the evaluation task according to the finished configuration, and generating an evaluation result and an evaluation report. According to the invention, the evaluation task is created, the rapid recombination construction of an evaluation index system and the adaptive adjustment of the configuration of the evaluation task are realized, the rapid evaluation of the operation efficiency of the aerospace measurement and control network is realized by a periodically initiated mode, and the daily management and control efficiency of the staff in the measurement and control center is effectively improved.

Description

Interactive reconfigurable aerospace measurement and control network operation efficiency evaluation method and system

Technical Field

The invention relates to the technical field of aerospace measurement and control communication, in particular to an interactive reconfigurable operation efficiency evaluation method and system for an aerospace measurement and control network.

Background

The space measurement and control network is an important component of space engineering and space infrastructure, mainly comprises a measurement and control center, a plurality of sets of measurement and control equipment and the like, can provide measurement and control communication support services for launching, running, recycling and the like of a spacecraft, and is a key channel and an information exchange center for world connection. In recent years, with the vigorous development of aerospace industry in China, the rocket launching frequency and the number of in-orbit spacecrafts are increased rapidly, the types and the number of aerospace equipment are increased gradually, the measurement and control data transmission requirements of users in all directions are increased synchronously, the intensity of equipment operation control work and the complexity of a resource scheduling use mode of an aerospace measurement and control network are further enhanced, and a severe challenge is formed for fully playing the comprehensive efficiency of the aerospace measurement and control network.

The comprehensive utilization of information such as equipment running state, equipment task data and the like can flexibly and conveniently carry out comprehensive multi-dimensional efficiency evaluation on the running efficiency of the space measurement and control network, can assist in finding weak links of the running of the space measurement and control network and the equipment management and control scheduling, and has important significance in effectively improving the daily management and control efficiency of the space measurement and control equipment and optimizing the network service capability of users. At present, general or special efficiency evaluation software such as EADSIM, FLAMES, WESS, COSIM and the like is formed by combining specific application requirements of different fields at home and abroad, although domestic researchers develop evaluation index systems and evaluation algorithm researches from different sides such as multi-satellite measurement and control scheduling, measurement and control equipment guarantee, measurement and control disaster tolerance and the like, the practical and available performance evaluation platform of the space measurement and control network is not developed and established specially aiming at the space measurement and control communication field, the characteristics of the space measurement and control network service cannot be applied, the use limitation is large, the operation is relatively complex, the application and development workload is large, and the comprehensive multi-dimensional efficiency evaluation requirement of the space measurement and control network is difficult to meet.

Disclosure of Invention

The invention mainly aims to provide an interactive reconfigurable operation efficiency evaluation method and system for an aerospace measurement and control network, and aims to solve the technical problems that the existing operation efficiency evaluation method for the aerospace measurement and control network cannot be suitable for the service characteristics of the aerospace measurement and control network, has large use limitation, relatively complex operation and large application and development workload, and is difficult to meet the requirement of the aerospace measurement and control network on comprehensive multi-dimensional efficiency evaluation.

In order to achieve the purpose, the invention provides an interactive reconfigurable operation efficiency evaluation method for an aerospace measurement and control network, which comprises the following steps:

s1: creating a blank evaluation task or creating an evaluation task based on an evaluation task template;

s2: finishing basic information configuration of the evaluation task in an interactive mode;

s3: completing the construction of an index system in a recombination mode;

s4: the selection and configuration of the evaluation algorithm and the weighting algorithm of the system performance index and the middle layer capability index are completed in an interactive mode;

s5: selecting according to the capability index of the middle layer, and carrying out interactive configuration on the normalization parameters of the measurable indexes of the lower layer in sequence;

s6: and confirming and storing after the configuration is completed, executing the evaluation task according to the completed configuration, and generating an evaluation result and an evaluation report.

Optionally, the step of creating an evaluation task based on the evaluation task template specifically includes: and selecting an evaluation task template, and loading and displaying an index system and evaluation task configuration contents in the evaluation task template.

Optionally, the evaluation task basic information includes an evaluation task name, a document output type, and an evaluation task period.

Optionally, step S3 specifically includes:

s31: determining a system performance indicator in response to a user input;

s32: determining an intermediate layer capability index in response to a user input;

s33: and responding to the input of a user according to the middle layer capability index, and determining the bottom layer measurable index of the lower layer.

Optionally, the step S4 specifically includes:

s41: the selection and the configuration of the evaluation algorithm and the weighting algorithm of the system performance index to the lower-layer middle-layer capability index are completed;

s42: and finishing the selection and configuration of the evaluation algorithm and the weighting algorithm of the capability index of the middle layer to the measurable index of the bottom layer of the lower layer.

Optionally, the capability index of the intermediate layer includes resource utilization capability, resource service capability, resource elasticity capability, and resource scheduling capability.

Optionally, the evaluation algorithm of the middle layer capability index adopts a weighted average method, and the weighting algorithm adopts an analytic hierarchy process.

Optionally, the intermediate layer capability indicator is the same for each measurable indicator of its underlying substrate.

Optionally, step S5 specifically includes: and a unified piecewise quantization model is adopted to realize the normalization of the bottom measurable index, and the configuration of normalization is completed by inputting the inflection point of a piecewise linear function.

In addition, in order to achieve the above object, the present invention further provides an interactive reconfigurable operation performance evaluation system for an aerospace measurement and control network, the system comprising:

the creating module is used for creating a blank evaluation task or creating an evaluation task based on an evaluation task template;

the first configuration module is used for finishing basic information configuration of the evaluation task in an interactive mode;

the construction module is used for completing construction of an index system in a recombination mode;

the second configuration module is used for finishing the selection and configuration of an evaluation algorithm and a weighting algorithm of the system performance index and the middle layer capability index in an interactive mode;

the third configuration module is used for selecting according to the capability index of the middle layer and sequentially carrying out interactive configuration on the normalization parameters of the measurable indexes of the lower layer;

and the evaluation module is used for confirming and storing after the configuration is completed, executing the evaluation task according to the completed configuration and generating an evaluation result and an evaluation report.

The invention provides an interactive reconfigurable operation efficiency evaluation method and system for a space measurement and control network, and the method comprises the steps of creating a blank evaluation task or creating an evaluation task based on an evaluation task template, finishing basic information configuration of the evaluation task in an interactive mode, finishing index system construction in a recombination mode, finishing evaluation algorithms of system efficiency indexes and intermediate layer capacity indexes and selection and configuration of a weight algorithm in an interactive mode, selecting according to the intermediate layer capacity indexes, sequentially carrying out interactive configuration on normalization parameters of measurable indexes at the lower layer, confirming and storing after configuration is finished, executing the evaluation task according to the finished configuration, and generating an evaluation result and an evaluation report. According to the invention, the evaluation task is established, the rapid recombination construction of an evaluation index system and the adaptive adjustment of the configuration of the evaluation task are realized, the rapid evaluation of the operation efficiency of the aerospace measurement and control network is realized by a mode of automatic starting at regular intervals or manual triggering initiation on the basis of data of resource operation and task execution conditions, and the daily management and control efficiency of staff in a measurement and control center is effectively improved.

Drawings

FIG. 1 is a schematic flow chart of an interactive reconfigurable aerospace measurement and control network operation efficiency evaluation method in an embodiment of the invention;

FIG. 2 is a schematic diagram of a reorganization construction result of an aerospace measurement and control network operation comprehensive support capability assessment index system in an embodiment of the invention;

FIG. 3 is a schematic diagram of an interactive configuration for weight calculation of system performance indicators in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of an interactive configuration of a normalization parameter of an underlying measurable indicator according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a result of one-time evaluation of the operation efficiency of the space flight measurement and control network in the embodiment of the invention.

The implementation, functional features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

At present, in the related technical field, the existing method for evaluating the operation efficiency of the aerospace measurement and control network cannot be suitable for the service characteristics of the aerospace measurement and control network, has large use limitation, relatively complex operation and large application and development workload, and is difficult to meet the requirement of the omnidirectional multi-dimensional efficiency evaluation of the aerospace measurement and control network.

In order to solve the problem, the invention provides various embodiments of the interactive reconfigurable operation efficiency evaluation method of the aerospace measurement and control network. The interactive reconfigurable aerospace measurement and control network operation efficiency evaluation method provided by the invention realizes the rapid reconfiguration construction of an evaluation index system and the adaptive adjustment of evaluation task configuration by creating an evaluation task, realizes the rapid evaluation of aerospace measurement and control network operation efficiency by a mode of regularly and automatically starting or manually triggering initiation on the basis of resource operation and task execution condition data, and effectively improves the daily management and control efficiency of measurement and control center workers.

The embodiment of the invention provides an interactive reconfigurable operation efficiency evaluation method for an aerospace measurement and control network, and the method comprises the following main steps:

step S01: creating a blank evaluation task or creating based on an evaluation task template. When the evaluation task template is created, after the evaluation task template is selected, an index system for displaying the specified evaluation task template and other evaluation task configuration information are loaded.

Step S02: and finishing basic information configuration of the evaluation task in an interactive mode, wherein the basic information configuration comprises the contents of the name of the evaluation task, the output type of the document, the period of the evaluation task and the like. In this embodiment, the evaluation task is named as an "aerospace measurement and control network operation integrated support capability evaluation task", the document output formats are "docx and pdf", and the evaluation task period is "daily evaluation".

Step S03: and finishing the construction of an index system in a recombination mode, wherein the construction comprises the steps of checking and selecting the system efficiency index, checking and selecting the middle layer capability index and checking the bottom layer measurable index according to the middle layer capability index. In this example, the result of the index system recombination is shown in FIG. 2.

Step S04: the evaluation algorithm of the system performance index and the middle layer capability index, and the selection and configuration of the weighting algorithm are completed in an interactive mode, specifically,

and (3) completing selection and configuration of an evaluation algorithm and a weighting algorithm of the system performance index 'comprehensive support capability evaluation'. As shown in fig. 3, the system performance index in this embodiment includes 4 middle layer performance indexes including resource utilization capability, resource service capability, resource elasticity capability, and resource scheduling capability, the evaluation algorithm selects a weighted average method, no parameter configuration is required, the weighting algorithm selects an analytic hierarchy process, the importance degrees of the middle layer performance indexes are the same, and the weighted values of the 4 middle layer performance indexes after parameter configuration are respectively "0.25, and 0.25".

And sequentially finishing the selection and configuration of an evaluation algorithm and a weight algorithm of 4 middle-layer capability indexes including resource utilization capability, resource service capability, resource elasticity capability and resource scheduling capability.

In this embodiment, the resource utilization capacity includes 8 bottom layer measurable indexes, such as the circle of the allocated plan of the resources in the whole network, the time length of the allocated plan of the resources in the whole network, and the like, the evaluation algorithm selects a weighted average method, the weighting algorithm selects an analytic hierarchy process, the importance degree of each bottom layer measurable index is considered to be the same, and the 8 bottom layer measurable indexes of the lower layer of the resource utilization capacity after the default configuration are all 0.1250.

In this embodiment, the resource service capability includes 5 bottom layer measurable indexes such as the whole network task demand quantity and the whole network task demand duration, the evaluation algorithm selects a weighted average method, the weighting algorithm selects an analytic hierarchy process, the importance degree of each bottom layer measurable index is considered to be the same, and the 5 bottom layer measurable indexes of the resource service capability bottom layer after the default configuration are all 0.2.

In this embodiment, the resource elasticity includes 2 bottom layer measurable indexes such as the idle availability time of the resources in the whole network, the idle availability rate of the resources in the whole network, and the like, the evaluation algorithm selects a weighted average method, the weighting algorithm selects an analytic hierarchy process, and the importance degree of each bottom layer measurable index is considered to be the same, and the 2 bottom layer measurable indexes of the bottom layer of the resource elasticity after the default configuration is used are all 0.5.

In this embodiment, the resource scheduling capability includes 3 bottom measurable indicators, such as the average response time of users in the whole network, the satisfaction degree of tasks in the whole network, and the satisfaction rate of tasks in the whole network cycle, the evaluation algorithm selects the weighted average method, the weighting algorithm selects the analytic hierarchy process, the importance degrees of the bottom measurable indicators are considered to be the same, and the 3 bottom measurable indicators in the bottom layer of the resource scheduling capability after the default configuration are all 0.3333.

Step S05: and selecting according to the capability index of the middle layer, and carrying out interactive configuration on the normalization parameters of the measurable indexes of the lower layer in sequence, wherein the configuration result is shown in figure 4. The invention adopts a uniform sectional quantization model to realize the normalization of the bottom layer measurable index, and completes the configuration of normalization by inputting the inflection point of a sectional linear function.

Step S06: after the configuration is completed, the storage is confirmed, the evaluation task is executed according to the completed configuration, an evaluation result and an evaluation report are generated, and an example of the primary evaluation result of the operation efficiency of the aerospace measurement and control network is shown in the attached figure 5.

It is easy to understand that the method for evaluating the operation performance of the interactive reconfigurable aerospace measurement and control network provided by the embodiment specifically includes the following steps:

(1) The embodiment provides a full-flow processing method comprising the steps of index system construction, evaluation task configuration, evaluation calculation execution, evaluation report generation and the like, and the method can automatically evaluate according to a period and manually select any time period for efficiency evaluation according to evaluation requirements;

(2) The embodiment realizes the rapid construction of an index system and the configuration of an evaluation task in an interactive reconfigurable mode, supports the reconfiguration of the existing rapid index system and the adaptive adjustment of the configuration of the evaluation task through an evaluation task template so as to adapt to new evaluation requirements;

(3) In this embodiment, the rapid construction of the index system is realized in a reconfigurable manner: the index system is characterized by a multilayer tree structure consisting of a system efficiency index, a middle layer capability index and a bottom layer measurable index; the established system efficiency index, middle layer capability index and bottom layer measurable index set are selected and combined to realize the rapid recombination construction of a multi-dimensional evaluation index system; the bottom layer measurable indexes finish the association binding and specific calculation logic of input data, and complicated interactive operation is avoided;

(4) In the embodiment, a unified weighted average model is adopted to realize the aggregate calculation from the lower-layer index to the upper-layer index, and the evaluation algorithm configuration and the weighting algorithm configuration of the system efficiency index and the middle-layer capability index to the lower-layer index are realized in an interactive mode; the supported evaluation algorithm comprises a weighted average method, and the supported weight algorithm comprises an analytic hierarchy process, a group analytic hierarchy process, an expert weighting method and the like;

(5) Aiming at the problems of different unit dimensions, different value range ranges and the like of the bottom measurable index, the embodiment adopts a uniform segmented quantization model to realize the normalization of the bottom measurable index, converts the index calculation result into a range of [0,100], and realizes the normalization configuration of the bottom measurable index in an interactive mode;

(6) The embodiment realizes other configurations of the evaluation task in an interactive mode: the method comprises the following steps of evaluating task names, an evaluation mode, an output report format and the like, wherein the evaluation mode comprises daily evaluation, weekly evaluation, monthly evaluation, annual evaluation, other self-defined time range evaluation and the like;

(7) According to the established index system and the configuration of the evaluation task, the calculation and normalization processing of the bottom measurable index are realized, the efficiency aggregation of each level index is completed from bottom to top, the evaluation result and the report form of the operation efficiency of the aerospace measurement and control network are generated and displayed in an imaging mode; the system performance index is displayed through a water drop diagram, the middle layer capacity index is displayed through a radar diagram, and the bottom layer measurable index is displayed through a curve diagram to obtain a historical calculation result.

The embodiment provides an interactive reconfigurable operation efficiency evaluation method for an aerospace measurement and control network, which can realize rapid reconfiguration construction of an evaluation index system and adaptive adjustment of evaluation task configuration based on an established evaluation task template, realize rapid evaluation of the operation efficiency of the aerospace measurement and control network, effectively improve the daily management and control efficiency of measurement and control center workers, and support continuous optimization and improvement of equipment management and control and resource scheduling of the aerospace measurement and control network.

The above are only preferred embodiments of the invention, and are not intended to limit the scope of the invention, and all equivalent structures or equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are also included in the scope of the invention.

Claims (10)

1. An interactive reconfigurable spaceflight measurement and control network operation efficiency evaluation method is characterized by comprising the following steps:

s1: creating a blank evaluation task or creating an evaluation task based on an evaluation task template;

s2: finishing basic information configuration of the evaluation task in an interactive mode;

s3: completing the construction of an index system in a recombination mode;

s4: the selection and configuration of the evaluation algorithm and the weighting algorithm of the system performance index and the middle layer capability index are completed in an interactive mode;

s5: selecting according to the capability index of the middle layer, and carrying out interactive configuration on the normalization parameters of the measurable indexes of the lower layer in sequence;

s6: and confirming and storing after the configuration is completed, executing the evaluation task according to the completed configuration, and generating an evaluation result and an evaluation report.

2. The method for evaluating the operating performance of the interactive reconfigurable aerospace measurement and control network according to claim 1, wherein the step of creating an evaluation task based on an evaluation task template specifically includes: and selecting an evaluation task template, and loading and displaying an index system and evaluation task configuration contents in the evaluation task template.

3. The method according to claim 1, wherein the evaluation task basic information comprises an evaluation task name, a document output type and an evaluation task period.

4. The method for evaluating the operation performance of the interactive reconfigurable space measurement and control network according to claim 1, wherein the step S3 specifically includes:

s31: determining a system performance indicator in response to a user input;

s32: determining an intermediate layer capability index in response to a user input;

s33: and responding to the input of a user according to the middle layer capability index, and determining the bottom layer measurable index of the lower layer.

5. The method for evaluating the operation performance of the interactive reconfigurable space measurement and control network according to claim 1, wherein the step S4 specifically includes:

s41: the selection and the configuration of the evaluation algorithm and the weighting algorithm of the system performance index to the lower-layer middle-layer capability index are completed;

s42: and finishing the selection and configuration of the evaluation algorithm and the weighting algorithm of the capability index of the middle layer to the measurable index of the bottom layer of the lower layer.

6. The method according to claim 5, wherein the intermediate layer capability index includes resource utilization capability, resource service capability, resource elasticity capability and resource scheduling capability.

7. The method for evaluating the operation performance of the interactive reconfigurable aerospace measurement and control network of claim 5, wherein the evaluation algorithm of the middle layer capability index adopts a weighted average method, and the weighting algorithm adopts an analytic hierarchy process.

8. The method of claim 5, wherein the capability index of the middle layer is the same for each measurable index of the bottom layer below the middle layer.

9. The method for evaluating the operation performance of the interactive reconfigurable spaceflight measurement and control network according to claim 5, wherein the step S5 specifically comprises: and a unified piecewise quantization model is adopted to realize the normalization of the bottom measurable index, and the configuration of normalization is completed by inputting the inflection point of a piecewise linear function.

10. An interactive reconfigurable operation efficiency evaluation system of an aerospace measurement and control network, the system comprising:

the creating module is used for creating a blank evaluation task or creating an evaluation task based on an evaluation task template;

the first configuration module is used for finishing basic information configuration of the evaluation task in an interactive mode;

the construction module is used for completing construction of an index system in a recombination mode;

the second configuration module is used for finishing the selection and configuration of an evaluation algorithm and a weighting algorithm of the system performance index and the middle layer capability index in an interactive mode;

the third configuration module is used for selecting according to the capability index of the middle layer and sequentially carrying out interactive configuration on the normalization parameters of the measurable indexes of the lower layer;

and the evaluation module is used for confirming and storing after the configuration is completed, executing the evaluation task according to the completed configuration and generating an evaluation result and an evaluation report.

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