CN115314421A - Quantification management system based on network intelligent platform - Google Patents

Abstract

The invention relates to the field of information security, in particular to a quantitative management system based on a network intelligent platform, which comprises a plurality of data interaction terminals; the control module is respectively connected with the data interaction terminals and is used for sending calling instruction information to the data interaction terminals and sending calling completion information after receiving data of the data interaction terminals; the evaluation module is used for judging the safety performance of each data interaction terminal according to the time difference between the calling instruction information and the calling completion information; and the adjusting module is respectively connected with the data interaction terminals and used for adjusting the use frequency of each data interaction terminal according to the sequence of the safety performance. Through evaluating the safety performance of the interactive terminals, the use frequency of each interactive terminal is adjusted, so that the safety performance of the data interactive terminals is judged more accurately, the safety and the efficiency of data processing are effectively improved, and the data processing efficiency is improved.

Description

Quantification management system based on network intelligent platform

Technical Field

The invention relates to the field of network security, in particular to a quantitative management system based on a network intelligent platform.

Background

In the process of storing and transmitting network data, the network equipment plays an important role, the storage of the network data is realized through the storage of each network equipment, and when the data transmission is needed, the data transmission is carried out through the network equipment so as to realize the calling, processing and analysis of the data, so that the development conditions in each field can be known according to the obtained data.

Patent document CN110855654A discloses a vulnerability risk quantification management system based on a flow mutual access relationship, which includes: the scanning unit is used for carrying out vulnerability scanning on the user groups accessing the server according to the data packets accessing the server to obtain vulnerability information of all the user groups; the clustering unit is used for establishing flow mapping between east-west flow and vulnerability information according to the flow relation among user groups; the matching unit is used for establishing application mapping of the user application and the vulnerability information according to the dependency relationship between the user application and the vulnerability information; the countermeasure unit is used for evaluating the safety of the user group according to the flow mapping and the application mapping to obtain a safety parameter and establishing a safety model F according to the safety parameter; establishing an attack model D according to historical attack data, initiating an attack to the security model F by using the attack model D, and acquiring an attack parameter K, wherein the attack parameter K belongs to [0,1], and when K =1, the security model F is considered to completely defend the attack, and when K =0, the security model F is considered to be completely attacked; the repairing unit is used for repairing one or more vulnerabilities of a user group; and when the attack parameter is less than or equal to the threshold value, the repairing unit, the clustering unit, the matching unit and the countermeasure unit sequentially circulate until the attack parameter is greater than the threshold value.

In the prior art, only the operation risk of a server is evaluated, so that the safety evaluation of a network system has limitation, and the risk evaluation accuracy is low.

Disclosure of Invention

Therefore, the invention provides a quantitative management system based on a network intelligent platform, which can solve the problem of limitation in safety evaluation.

In order to achieve the above object, the present invention provides a quantitative management system based on a network intelligent platform, comprising:

the data interaction terminals are used for carrying out data processing and data transmission;

the control module is respectively connected with the data interaction terminals and is used for sending calling instruction information to the data interaction terminals and sending calling completion information after receiving data of the data interaction terminals;

the evaluation module is used for judging the safety performance of each data interaction terminal according to the time difference between the calling instruction information and the calling completion information;

and the adjusting module is respectively connected with the data interaction terminals and is used for adjusting the use frequency of each data interaction terminal according to the sequence of the safety performance.

Further, the control module comprises a first sending unit, a receiving unit and a second sending unit, the first sending unit is used for sending the calling instruction information to the data interaction terminal, the receiving unit is used for receiving the calling data corresponding to the calling instruction information, and the second sending unit is used for sending the response information after receiving the calling data.

Further, the sending, by the first sending unit, the call instruction information to the data interaction terminal includes:

the system comprises a construction subunit, a data interaction unit and a data interaction unit, wherein the construction subunit is used for constructing a broadcast message and a broadcast object, and a plurality of data interaction terminals are arranged in the broadcast object;

and the sending subunit is configured to send the broadcast messages to the broadcast objects, so that any data interaction terminal can receive the call instruction information, where the broadcast message is the call instruction information.

Further, the receiving unit, when receiving the call data corresponding to the call instruction information, includes:

the analysis subunit is used for analyzing the calling instruction information, extracting the key words in the calling instruction information and taking the data matched with the key words as the calling data;

the setting subunit is used for presetting the standard number of the keywords;

the statistic subunit is used for counting the actual number of the keywords in the calling instruction information;

and the adjusting subunit is used for adjusting the search duration of the search retrieval data according to the relation between the actual quantity and the standard quantity of the keywords.

Further, when the adjustment subunit adjusts the search duration of the search retrieval data according to the relation between the actual number and the standard number of the keywords, if the actual number is greater than or equal to the standard number of the keywords, the search duration T0 is prolonged;

if the actual number is less than the number of the keyword criteria, the search time length T0 is shortened.

Further, the step of judging the safety performance of each data interaction terminal by the evaluation module according to the time difference between the calling instruction information and the calling completion information comprises the following steps:

setting a standard difference value delta T0, setting the sending time of the calling instruction to be T1, and setting the time of completing the calling information to be T2, wherein the time difference value delta T = T2-T1 between the calling instruction information and the calling information;

if the delta T is less than the delta T0, the information searching speed in the data interaction terminal is high, and the safety performance of the data interaction terminal is high;

if the delta T = delta T0, the information searching speed in the data interaction terminal is normal, and the information security performance of the data interaction terminal is normal;

if delta T is greater than delta T0, the information searching speed in the data interaction terminal is low, and the information security performance of the data interaction terminal is to be further evaluated.

Further, the evaluation module further evaluates the information security performance of the data interaction terminal;

determining the service life of the data interaction terminal and the historical data processing amount, and if the service life of the data interaction terminal is less than 1 year, assigning the service life of the data interaction terminal to be 1; if the service life of the data interaction terminal is more than or equal to 1 and less than 5, assigning the service life of the data interaction terminal to be 2; if the service life of the data interaction terminal is more than or equal to 5, assigning the service life to be 3;

similarly, assigning a value according to a preset data processing limit range for the historical data processing amount, wherein if the historical data processing amount is less than the minimum value of the data processing limit range, the value is assigned to be 1, if the historical data processing amount is greater than or equal to the minimum value of the data processing limit range and less than or equal to the maximum value of the data processing limit range, the value is assigned to be 2, and if the historical data processing amount is greater than the maximum value of the data processing limit range, the value is assigned to be 3;

if the service life of the interactive terminal and the actual assignment of the historical data processing amount are 2, the safety performance of the data interactive terminal is strong;

if the service life of the interactive terminal and the actual assignment of the historical data processing amount are 3, 4 or 5, the safety performance of the data interactive terminal is normal;

if the service life of the interactive terminal and the actual value of the historical data processing amount are 6, the safety performance of the data interactive terminal is weak.

Furthermore, the adjusting module adjusts the use frequency of each data interaction terminal according to the sequence of the safety performance;

sequencing according to the safety performance of each data interaction terminal to obtain a first sequence;

two fixed sequence identifications are arranged in the first sequence, namely a first sequence identification and a second sequence identification, wherein the first sequence identification is arranged in front of the second sequence identification;

the use frequency of the data interaction terminal positioned in front of the first sequence identifier is F1;

the use frequency of the data interaction terminal between the first sequence identifier and the second sequence identifier is F2;

and the use frequency of the data interaction terminal positioned after the second sequence identifier is F3.

Further, when the positions of the first sequence identifier and the second sequence identifier are determined, trisecting the first sequence according to the actual number of the data interaction terminals to form a first sub-column, a second sub-column and a third sub-column, wherein the number of the data interaction terminals in the first sub-column, the second sub-column and the third sub-column is the same or the data difference value of each sub-column is not more than 1;

the first sequence identification is arranged between the first sub-column and the second sub-column;

the second sequence identification is disposed between the second subcolumn and the third subcolumn.

Further, for any data interaction terminal in the second sub-column, when the data interaction terminal calls data, counting the data processing times of the data interaction terminal, and determining the proportion P of the times that the data calling time is less than the search time T0 in the total times;

if the percentage P is more than or equal to 95%, the data interaction terminal is promoted to a first sub-column;

and if the percentage is less than 5%, descending the data interaction terminal to a third sub-column.

Compared with the prior art, the method has the advantages that the safety performance of the interactive terminal is evaluated, the use frequency of each interactive terminal is adjusted, the safety of data interaction is further guaranteed, and in the process of evaluating the safety performance of the data interactive terminal, the response time of the server and the data interactive terminal is used as an important index for judging the data processing performance of the data interactive terminal, so that the safety performance of the data interactive terminal is judged more accurately, the safety and the efficiency of data processing are effectively improved, and the data processing efficiency is improved.

Particularly, the working process of the control module is limited, so that the process from sending the calling instruction information to sending the response information is effectively evaluated, the information interaction process of the data interaction terminal and the control module is effectively processed, and the data processing efficiency is greatly improved.

Particularly, the message sending efficiency of the data interaction terminal is greatly improved by constructing the broadcast message, in practical application, if the message sending efficiency is within the range of the broadcast object, the data is searched, otherwise, the broadcast message cannot be received, the data sending efficiency and the accuracy of the sending object are effectively improved, and the data processing efficiency is further improved.

Especially, the keywords are extracted from the calling instruction information, and then the data matched with the keywords are used as the calling data, so that the efficiency of searching the calling data is greatly improved, the limited searching duration is adjusted according to the number of the keywords, the internal data is traversed in the data interaction terminal, the calling data is accurately extracted, and the completeness and the accuracy of the calling data are guaranteed.

Particularly, the search time is effectively adjusted by determining the relation between the actual number of the keywords in the calling instruction and the standard number of the keywords, so that when the number of the keywords is large, the search time is properly prolonged to ensure the integrity of data search, and when the number of the keywords is small, the search time is properly shortened to ensure the data extraction efficiency of the data terminal.

Particularly, the information search speed of the data interaction terminal is divided to be used as effective embodiment of the information security performance of the data interaction terminal, so that the security of the data interaction terminal is effectively evaluated, the effective quantification of the security performance of the data interaction terminal is realized, in practical application, the time difference delta T between calling instruction information and calling completion information embodies the response speed of a cloud to the data interaction terminal and the accuracy of construction of calling instructions in the data interaction terminal, the security performance of the data interaction terminal can be well embodied and represented, the security of the data interaction terminal is effectively evaluated, and the evaluation accuracy and the efficiency are improved.

Particularly, when the performance of the information interaction terminal is further evaluated, two parameters of service life and historical data processing are adopted to express the safety of the data interaction terminal, in practical application, the more the service life is, the higher the probability of failure is, and similarly, the larger the historical data processing amount is, the lower the safety curve is, the embodiment of the invention judges that the safety performance is strong by selecting the service life section and the historical data processing amount is low, and determines that the safety performance is poor for the data interaction terminal with long service life and more historical data processing amount, so that the safety performance of the data interaction terminal is effectively evaluated, and the sequencing efficiency of determining the safety performance is improved.

Particularly, by setting the sequence identifier, the use frequency of the sequenced data interaction terminal is effectively determined, so that the use frequency of the data interaction terminal is partitioned, and the efficiency of data processing is improved conveniently.

Particularly, the sequence of each sequenced data interaction terminal is set as a first sequence, the first sequence is equally divided, and then the first sequence identifier and the second sequence identifier are arranged at equally divided positions, so that interval selection can be performed as required in the using process of the data interaction terminal, the efficiency of data processing is ensured, and in the data processing task allocation process, the number of the data interaction terminals of each part is the same, so that the task allocation is more efficient, and the allocation efficiency of the data processing task is effectively improved.

Particularly, the actual position of the data interaction terminal in the second sub-column is effectively adjusted, so that the position of the data interaction terminal can be matched with the actual safety performance of the data interaction terminal, the adjusted position of the interaction terminal is more reasonable and efficient, data processing in the data interaction process is facilitated, and the data processing efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a quantitative management system based on a network intelligent platform according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a control module according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a first sending unit in the embodiment of the present invention;

fig. 4 is a schematic structural diagram of a receiving unit in the embodiment of the present invention.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described in conjunction with the following examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1, a quantitative management system based on a network intelligent platform according to an embodiment of the present invention includes:

the system comprises a plurality of data interaction terminals 10, a data processing module and a data transmission module, wherein each data interaction terminal is used for carrying out data processing and data transmission;

the control module 20 is respectively connected with the data interaction terminals and is used for sending calling instruction information to the data interaction terminals and sending calling completion information after receiving data of the data interaction terminals;

the evaluation module 30 is used for judging the safety performance of each data interaction terminal according to the time difference between the calling instruction information and the calling completion information;

and the adjusting module 40 is respectively connected with the data interaction terminals and used for adjusting the use frequency of each data interaction terminal according to the sequence of the safety performance.

Specifically, the application scenario of the embodiment of the invention is that a data interaction terminal, a control module, a server and an evaluation module are provided, data exchange can be performed between the data interaction terminals through the server, data interaction can be performed between any two data interaction terminals, but transfer or information recording needs to be performed through the server in each data interaction process. In the calling process, the data interaction terminal needs to obtain the approval of the server, and in practical application, the server has a response time sequence to the request of each data interaction terminal, so that the sending time length of the calling information is different, and the server has faults or limited information interaction because a large amount of information of the data interaction terminal needs to be processed, so that the safety performance of each data interaction terminal is judged according to the time difference between the calling instruction information and the calling information, the data processing capacity of each interaction terminal is evaluated, the effective adjustment of the use frequency of each data interaction terminal is realized, and the efficiency of data calling is greatly improved.

Specifically, the embodiment of the invention evaluates the security performance of the interactive terminal, adjusts the use frequency of each interactive terminal, further ensures the security of data interaction, and uses the response time of the server and the data interaction terminal as an important index for judging the data processing performance of the data interaction terminal in the process of evaluating the security of the data interaction terminal, so that the judgment on the security performance of the data interaction terminal is more accurate, the security and the efficiency of data processing are effectively improved, and the data processing efficiency is improved.

Specifically, as shown in fig. 2, the control module 20 includes a first sending unit 21, a receiving unit 22, and a second sending unit 23, where the first sending unit is configured to send the call instruction information to the data interaction terminal, the receiving unit is configured to receive the call data corresponding to the call instruction information, and the second sending unit is configured to send the response information after receiving the call data.

Specifically, the working process of the control module is limited, so that the process from sending the calling instruction information to sending the response information is effectively evaluated, the information interaction process of the data interaction terminal and the control module is effectively processed, and the data processing efficiency is greatly improved.

Specifically, as shown in fig. 3, the sending, by the first sending unit 21, the call instruction information to the data interaction terminal includes:

a constructing subunit 211, configured to construct a broadcast message and a broadcast object, where the broadcast object includes a plurality of data interaction terminals;

a sending subunit 212, configured to send the broadcast messages to the broadcast objects, respectively, so that any data interaction terminal can receive the call instruction information, where the broadcast message is the call instruction information.

Specifically, the embodiment of the invention greatly improves the message sending efficiency of the data interaction terminal by constructing the broadcast message, and in practical application, if the message is in the range of the broadcast object, the data is searched, otherwise, the broadcast message cannot be received, so that the data sending efficiency and the precision of the sending object are effectively improved, and the data processing efficiency is further improved.

Specifically, as shown in fig. 4, the receiving unit 22, when receiving the call data corresponding to the call instruction information, includes:

the analysis subunit 221 is configured to analyze the call instruction information, extract a keyword in the call instruction information, and use data matched with the keyword as the call data;

a setting subunit 222 configured to preset a keyword criterion number;

a statistics subunit 223, configured to count an actual number of the keywords in the call instruction information;

the adjusting subunit 224 is configured to adjust the search duration of the search retrieval data according to the relationship between the actual number and the number of the keyword criteria.

Specifically, the keywords are extracted from the calling instruction information, and then the data matched with the keywords are used as the calling data, so that the efficiency of searching the calling data is greatly improved, the limited searching duration is adjusted according to the number of the keywords, internal data are traversed in the data interaction terminal, accurate extraction of the calling data is achieved, and the completeness and accuracy of the calling data are guaranteed.

Specifically, when the adjustment subunit adjusts the search duration of the search retrieval data according to the relationship between the actual number and the standard number of the keywords, if the actual number is greater than or equal to the standard number of the keywords, the search duration T0 is prolonged;

if the actual number is less than the number of the keyword criteria, the search time length T0 is shortened.

Specifically, a first coefficient k1 is set to extend the search duration, and correspondingly, a second coefficient k2 is adopted to shorten the search duration, wherein the first coefficient k1= (actual number of keywords-standard number of keywords)/actual number of keywords;

the second coefficient k2= (number of keyword criteria-actual number of keywords)/number of keyword criteria.

Specifically, the embodiment of the invention effectively adjusts the search time length by determining the relation between the actual number of the keywords in the calling instruction and the standard number of the keywords, so that the search time length is properly prolonged when the number of the keywords is large to ensure the integrity of data search, and the search time length is properly shortened when the number of the keywords is small to ensure the data extraction efficiency of the data terminal.

Specifically, the step of judging the security performance of each data interaction terminal by the evaluation module according to the time difference between the calling instruction information and the calling completion information comprises the following steps:

setting a standard difference value delta T0, setting the sending time of the calling instruction to be T1, and setting the time of completing the calling information to be T2, wherein the time difference value delta T = T2-T1 between the calling instruction information and the calling information;

if the delta T is less than the delta T0, the information searching speed in the data interaction terminal is high, and the safety performance of the data interaction terminal is high;

if the delta T = delta T0, the information searching speed in the data interaction terminal is normal, and the information security performance of the data interaction terminal is normal;

if delta T is greater than delta T0, the information searching speed in the data interaction terminal is low, and the information security performance of the data interaction terminal is to be further evaluated.

Specifically, the information search speed of the data interaction terminal is divided to be used as effective embodiment of the information security performance of the data interaction terminal, so that the security of the data interaction terminal is effectively evaluated, the effective quantification of the security performance of the data interaction terminal is realized, in practical application, the time difference delta T between calling instruction information and calling completion information embodies the response speed of a cloud to the data interaction terminal and the accuracy of construction of calling instructions in the data interaction terminal, the security performance of the data interaction terminal can be well embodied and represented, the security of the data interaction terminal is effectively evaluated, and the evaluation accuracy and the efficiency are improved.

Specifically, the evaluation module further evaluates the information security performance of the data interaction terminal;

determining the service life of the data interaction terminal and the historical data processing amount, and if the service life of the data interaction terminal is less than 1 year, assigning the service life of the data interaction terminal to be 1; if the service life of the data interaction terminal is more than or equal to 1 and less than 5, assigning the service life of the data interaction terminal to be 2; if the service life of the data interaction terminal is more than or equal to 5, assigning the service life to be 3;

similarly, assigning a value according to a preset data processing limit range for the historical data processing amount, wherein if the historical data processing amount is less than the minimum value of the data processing limit range, the value is assigned to be 1, if the historical data processing amount is greater than or equal to the minimum value of the data processing limit range and less than or equal to the maximum value of the data processing limit range, the value is assigned to be 2, and if the historical data processing amount is greater than the maximum value of the data processing limit range, the value is assigned to be 3;

if the service life of the interactive terminal and the actual assignment of the historical data processing amount are 2, the safety performance of the data interactive terminal is strong;

if the service life of the interactive terminal and the actual value of the historical data processing amount are 3, 4 or 5, the safety performance of the data interactive terminal is normal;

if the service life of the interactive terminal and the actual value of the historical data processing amount are 6, the safety performance of the data interactive terminal is weak.

Specifically, when the performance of the information interaction terminal is further evaluated, two parameters, namely the service life and the historical data processing, are adopted to express the safety of the data interaction terminal, in practical application, the probability of failure is higher as the service life is longer, and similarly, the safety curve shows a descending trend as the historical data processing amount is larger.

Specifically, the adjusting module adjusts the use frequency of each data interaction terminal according to the sequence of the security performance;

sequencing according to the safety performance of each data interaction terminal to obtain a first sequence;

two fixed sequence identifications are arranged in the first sequence, namely a first sequence identification and a second sequence identification, wherein the first sequence identification is arranged in front of the second sequence identification;

the use frequency of the data interaction terminal positioned in front of the first sequence identifier is F1;

the use frequency of the data interaction terminal between the first sequence identifier and the second sequence identifier is F2;

and the use frequency of the data interaction terminal positioned after the second sequence identification is F3.

Specifically, the embodiment of the invention effectively determines the use frequency of the sequenced data interaction terminals by setting the sequence identifiers, realizes the interval of the use frequency of the data interaction terminals, and is convenient for improving the efficiency of data processing.

Specifically, when the positions of a first sequence identifier and a second sequence identifier are determined, trisecting the first sequence according to the actual number of data interaction terminals to form a first subline, a second subline and a third subline, wherein the number of the data interaction terminals in the first subline, the second subline and the third subline is the same or the data difference value of each subline is not more than 1;

the first sequence identification is arranged between the first sub-column and the second sub-column;

the second sequence identification is disposed between the second subcolumn and the third subcolumn.

Specifically, the sequence of each sequenced data interaction terminal is set as the first sequence, the first sequence is equally divided, and the first sequence identifier and the second sequence identifier are arranged at equally divided positions, so that interval selection can be performed according to needs in the using process of the data interaction terminal, the efficiency of data processing is ensured, and in the data processing task allocation process, the number of the data interaction terminals in each part is the same, so that the task allocation is more efficient, and the allocation efficiency of the data processing task is effectively improved.

Specifically, for any data interaction terminal in the second sub-column, when the data interaction terminal calls data, counting the data processing times of the data interaction terminal, and determining the proportion P of the times that the data calling time length is smaller than the search time length T0 in the total times;

if the proportion P is larger than or equal to 95%, the data interaction terminal is promoted to a first sub-column;

and if the percentage is less than 5%, descending the data interaction terminal to a third sub-column.

Specifically, the embodiment of the invention effectively adjusts the actual position of the data interaction terminal in the second sub-column, so that the position of the data interaction terminal can be matched with the actual safety performance of the data interaction terminal, the adjusted position of the interaction terminal is more reasonable and efficient, the data processing in the data interaction process is convenient, and the data processing efficiency is improved.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is apparent to those skilled in the art that the scope of the present invention is not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a quantization management system based on network wisdom platform which characterized in that includes:

the data interaction terminals are used for performing data processing and data transmission;

the control module is respectively connected with the data interaction terminals and is used for sending calling instruction information to the data interaction terminals and sending calling completion information after receiving data of the data interaction terminals;

the evaluation module is used for judging the safety performance of each data interaction terminal according to the time difference between the calling instruction information and the calling completion information;

and the adjusting module is respectively connected with the data interaction terminals and is used for adjusting the use frequency of each data interaction terminal according to the sequence of the safety performance.

2. The quantitative management system based on the intelligent network platform as claimed in claim 1, wherein the control module includes a first sending unit, a receiving unit and a second sending unit, the first sending unit is configured to send the call instruction information to the data interaction terminal, the receiving unit is configured to receive the call data corresponding to the call instruction information, and the second sending unit is configured to send the response information after receiving the call data.

3. The quantitative management system based on intelligent network platform as claimed in claim 2,

the first sending unit sends the calling instruction information to the data interaction terminal, and the sending unit comprises the following steps:

the system comprises a construction subunit, a data interaction unit and a data transmission unit, wherein the construction subunit is used for constructing a broadcast message and a broadcast object, and a plurality of data interaction terminals are arranged in the broadcast object;

and the sending subunit is configured to send the broadcast messages to the broadcast objects, so that any data interaction terminal can receive the call instruction information, where the broadcast message is the call instruction information.

4. The quantitative management system based on intelligent network platform as claimed in claim 3,

the receiving unit receives the calling data corresponding to the calling instruction information, and the receiving unit comprises:

the analysis subunit is used for analyzing the calling instruction information, extracting key words in the calling instruction information and taking data matched with the key words as the calling data;

the setting subunit is used for presetting the standard number of the keywords;

the statistical subunit is used for counting the actual number of the keywords in the calling instruction information;

and the adjusting subunit is used for adjusting the search duration of the search retrieval data according to the relation between the actual quantity and the standard quantity of the keywords.

5. The quantitative management system based on intelligent platform of network as claimed in claim 4,

when the adjusting subunit adjusts the search time length of the search retrieval data according to the relation between the actual number and the standard number of the keywords, if the actual number is more than or equal to the standard number of the keywords, the search time length T0 is prolonged;

if the actual number is less than the number of the keyword criteria, the search time length T0 is shortened.

6. The quantitative management system based on intelligent network platform as claimed in claim 5,

the evaluation module judges the safety performance of each data interaction terminal according to the time difference between the calling instruction information and the calling completion information, and comprises the following steps:

setting a standard difference value delta T0, setting the sending time of the calling instruction information as T1, and setting the time of completing the calling information as T2, wherein the time difference value delta T = T2-T1 between the calling instruction information and the completing calling information;

if the delta T is less than the delta T0, the information searching speed in the data interaction terminal is high, and the safety performance of the data interaction terminal is high;

if the delta T = delta T0, the information searching speed in the data interaction terminal is normal, and the information security performance of the data interaction terminal is normal;

if the delta T is larger than the delta T0, the information searching speed in the data interaction terminal is low, and the information security performance of the data interaction terminal needs to be further evaluated.

7. The quantitative management system based on intelligent platform of network as claimed in claim 6,

when the evaluation module further evaluates the information security performance of the data interaction terminal;

determining the service life of the data interaction terminal and the historical data processing amount, and if the service life of the data interaction terminal is less than 1 year, assigning the service life of the data interaction terminal to be 1; if the service life of the data interaction terminal is more than or equal to 1 and less than 5, assigning the service life of the data interaction terminal to be 2; if the service life of the data interaction terminal is more than or equal to 5, assigning the service life to be 3;

similarly, assigning a value according to a preset data processing limit range for the historical data processing amount, wherein if the historical data processing amount is less than the minimum value of the data processing limit range, the value is assigned to be 1, if the historical data processing amount is greater than or equal to the minimum value of the data processing limit range and less than or equal to the maximum value of the data processing limit range, the value is assigned to be 2, and if the historical data processing amount is greater than the maximum value of the data processing limit range, the value is assigned to be 3;

if the service life of the interactive terminal and the actual assignment of the historical data processing amount are 2, the safety performance of the data interactive terminal is strong;

if the service life of the interactive terminal and the actual assignment of the historical data processing amount are 3, 4 or 5, the safety performance of the data interactive terminal is normal;

and if the service life of the interactive terminal and the actual value of the historical data processing amount are 6, the safety performance of the data interactive terminal is weak.

8. The quantitative management system based on intelligent platform for network as claimed in claim 7,

the adjusting module adjusts the use frequency of each data interaction terminal according to the sequence of the security performance;

sequencing according to the safety performance of each data interaction terminal to obtain a first sequence;

two fixed sequence identifications, namely a first sequence identification and a second sequence identification, are arranged in the first sequence, and the first sequence identification is arranged in front of the second sequence identification;

the use frequency of the data interaction terminal positioned in front of the first sequence identifier is F1;

the use frequency of the data interaction terminal between the first sequence identifier and the second sequence identifier is F2;

and the use frequency of the data interaction terminal positioned after the second sequence identification is F3.

9. The quantitative management system based on intelligent platform of network as claimed in claim 8,

when the positions of a first sequence identifier and a second sequence identifier are determined, trisecting the first sequence according to the actual number of data interaction terminals to form a first subcolumn, a second subcolumn and a third subcolumn, wherein the number of the data interaction terminals in the first subcolumn, the second subcolumn and the third subcolumn is the same or the data difference value of each subcolumn is not more than 1;

the first sequence identification is arranged between the first sub-column and the second sub-column;

the second sequence identification is disposed between the second subcolumn and the third subcolumn.

10. The quantitative management system based on the intelligent network platform as claimed in claim 9, wherein for any data interaction terminal in the second sub-column, if the data interaction terminal is in data retrieval, the data processing times of the data interaction terminal are counted, and the proportion P of the times that the data retrieval time length is less than the search time length T0 in the total times is determined;

if the proportion P is larger than or equal to 95%, the data interaction terminal is promoted to a first sub-column;

and if the proportion is less than 5%, descending the data interaction terminal to a third sub-column.

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