CN114827226B - Remote management method for industrial control equipment - Google Patents

Abstract

The invention discloses a remote management method of industrial control equipment, which comprises the steps of firstly, carrying out remote data acquisition on each managed equipment to obtain target data; judging target data, if the target data is alarm data, performing alarm analysis, and determining dispatched personnel to process alarm signals according to the alarm analysis; determining how to comprehensively judge the personnel to be dispatched according to the proficiency and the work at hand of the dispatched personnel by a processing mode; when the alarm signal is not the alarm signal, data conversion is carried out before the data transmission process is carried out; firstly, acquiring a unique identification code of industrial control equipment; then, target data is obtained and processed to obtain numbers and characteristic characters representing the numbers; inserting set contents according to the characteristic characters, randomly inserting the set contents into the combined segment, marking the inserted combined segment as a fused segment, and endowing an identifier for the fused segment; and obtaining fusion information of the identifier and the fusion segment combination, and then transmitting.

Description

Remote management method for industrial control equipment

Technical Field

The invention relates to the technical field of remote equipment management, in particular to a remote management method for industrial control equipment.

Background

The patent with publication number CN107508852A discloses an industrial control equipment identification management system based on internet of things, which comprises: the front ends of the data encryption terminals are connected with the industrial control equipment in a one-to-one correspondence mode through conversion interfaces, unique identity information is arranged in the data encryption terminals, and the data encryption terminals are used for encrypting the identity information and output data of the industrial control equipment and uploading the encrypted identity information and the output data; the remote equipment is used for decrypting the data uploaded by the data encryption terminal and acquiring the output data of the industrial control equipment corresponding to the identity information. The invention realizes the identity recognition management and the data management of different manufacturers and different types of industrial control equipment based on the corresponding relation between the data encryption terminal and the industrial control equipment, not only improves the safety and the reliability of the system, but also optimizes the management and the maintenance work of the industrial control equipment.

However, the system improves a technical scheme of system security and reliability in a targeted manner, but a solution is provided based on the fact that how to ensure the security of remote data transmission when aiming at data transmission and how to process some special signals lacks corresponding strategies.

Disclosure of Invention

The invention aims to provide a remote management method of industrial control equipment;

the purpose of the invention can be realized by the following technical scheme:

a remote management method for industrial control equipment specifically comprises the following steps:

the method comprises the following steps: the system comprises a remote control end and an industrial control equipment end, wherein the remote control end is remote equipment of a manager, and synchronously marks the corresponding industrial control equipment end as managed equipment;

step two: performing remote data acquisition on each managed device to obtain target data; judging target data, if the target data is alarm data, performing alarm analysis, and determining dispatched personnel to process alarm signals according to the alarm analysis; otherwise, data conversion is carried out before the data transmission process is carried out;

the specific data conversion mode is as follows:

step 1: acquiring a unique identification code of industrial control equipment;

step 2: then, acquiring target data, splitting the target data, determining a characteristic character group Ti, i =1.. n through the itemized characters in the unique identification code, and then obtaining n combined sections according to the specific attributes of the n characteristic characters, wherein each combined section comprises a plurality of interval sections;

step 3: then, each combined segment is endowed with an identifier, and the identifier is a characteristic character corresponding to the corresponding characteristic character set Ti; then, the characteristic characters are subjected to full digitalization processing to obtain numbers and characteristic characters representing the numbers;

step 4: then inserting the set content according to the characteristic characters, randomly inserting the set content into the combined segment, and marking the inserted combined segment as a fusion segment; assigning an identifier to the fused segment; obtaining a fusion segment with an identifier, and marking the fusion segment as fusion information;

step three: and transmitting the fusion information after the data conversion process is finished to a remote control end.

Further, the target data in the step one is specifically acquired operation data or data required by other users.

Further, the unique identification code in Step1 is unique and not modifiable, and may be a physical address of the device or an IP address for accessing a remote network, and the IP address is not modified.

Further, the specific way of splitting the target data in Step2 is as follows:

s01: synchronously acquiring each character in the unique identification code, marking the character as a itemized character, only keeping one same character in the itemized character, and removing the rest content;

s02: acquiring the number of digits of the unique identification code, wherein the digits refer to the number of characters existing in the unique identification code; then removing the repeated characters and only reserving one digit, and then sequencing the rest characters according to the original sequence, wherein the reserved character is the most front digit in the same character;

s03: the remaining characters are then labeled in order as a characteristic character set Ti, i =1.. n, where n is a positive integer;

s04: acquiring target data, and then dividing the target data into a plurality of interval sections according to interval symbols, wherein the interval symbols are set distinguishing symbols and are divided into a plurality of interval sections; marking the number of interval segments as interval numbers;

s05: dividing the interval number by n, then rounding, and marking the obtained value as an interval value;

s06: then, according to the sequence of the data of the target, selecting interval segments in sequence, selecting interval segments corresponding to consistent interval values in sequence, and marking all the selected interval segments as combined segments; when the last combined segment is selected, if redundant interval segments which cannot be selected exist, the interval segments are fused into the last combined segment;

s07: n combined sections are obtained, and each combined section comprises a plurality of interval sections.

Further, the distinguishing symbol in step S04 is a punctuation mark or other set spacer.

Further, the specific way of fully digitizing the feature characters in Step3 is as follows: if the characteristic character is a number, no processing is needed, if the part is an English letter, the part is sorted according to 26 orders of the English letters a to z, and the corresponding order number after the sorting is added with nine to be a corresponding representative number, so that the characteristic character consisting of the number and the representative number is obtained.

Further, the specific manner of content insertion set in Step4 is as follows:

acquiring all combined segments and corresponding identifiers thereof;

acquiring the number of the identifier, acquiring the setting content in the corresponding sequence, randomly inserting the setting content into the combined segment, and marking the inserted combined segment as a fusion segment; assigning an identifier to the fused segment;

and obtaining a fusion segment with an identifier, and marking the fusion segment as fusion information.

Furthermore, the set content is 35 preset contents set by the user, the contents are set by the user, and the remote control end and the industrial control equipment end are both locally stored.

Further, the air conditioner is provided with a fan,

the alarm analysis is automatically carried out when the remote control end receives the alarm signal transmitted by the industrial control equipment end, and the alarm analysis has the specific mode that:

SS 1: when the alarm signal is acquired, automatically acquiring all maintenance personnel, and marking the maintenance personnel as the regulated personnel Dj, j =1.. m;

SS 2: acquiring real-time positions of all dispatched persons Dj, automatically acquiring the distances from an industrial control equipment end according to the real-time positions, marking the distances as dispatched distances Tj, wherein j =1.. m, and Dj and Tj correspond one to one;

SS 3: then abnormal data is checked, the operation data of the industrial control equipment end when the alarm signal is generated is obtained, the personnel to be regulated are checked according to the operation data, and the checking mode is as follows:

SS 301: acquiring all alarm operation data which comprise a plurality of dimensional industrial control equipment end operation parameters, and marking the operation parameters as alarm dimension parameters to obtain a plurality of alarm dimension parameters;

and SS 302: then obtaining abnormal data successfully repaired by all the dispatched personnel, wherein the abnormal data is the corresponding operation data content of the repaired industrial control equipment end each time when the industrial control equipment end is abnormal, and each abnormal data comprises a plurality of abnormal dimension parameters;

SS 303: optionally selecting all abnormal data of the successfully repaired regulated person, and optionally selecting one abnormal data;

and the SS 304: subtracting the corresponding alarm dimension parameter from each abnormal dimension parameter in the abnormal data, then taking an absolute value, and summing all absolute values to obtain a value marked as a single difference sum value;

SS 305: processing the rest abnormal data in the same way as in the step SS304 to obtain all single abnormal sum values, adding the single abnormal sum values, and marking the obtained value as a total abnormal value;

the SS 306: the same processing of the step SS303-SS305 is carried out on the rest of the dispatched persons, and the total different value of all the dispatched persons is obtained;

SS 4: marking the total outlier of the person to be regulated as Yj, j =1.. m; yj is in one-to-one correspondence with Dj and Tj;

SS 5: synchronously acquiring the task quantity left at the hand of the person to be regulated, and marking the task quantity as a residual value Hj, wherein j =1.. m;

SS 6: and calculating the tuning value Qj according to a formula, wherein the specific calculation formula is as follows:

Qj=0.55/Yj+0.32*Tj+0.13/Hj；

SS 7: marking the dispatched personnel Dj corresponding to the maximum value of Qj as dispatching personnel;

SS 8: and informing dispatching personnel to process the alarm signal.

The invention has the beneficial effects that:

a remote management method for industrial control equipment comprises the steps of firstly, performing remote data acquisition on each managed equipment to obtain target data; judging target data, if the target data is alarm data, performing alarm analysis, and determining dispatched personnel to process alarm signals according to the alarm analysis; determining how to comprehensively judge the personnel to be dispatched according to the proficiency and the manual work of the dispatching personnel by a processing mode;

when the alarm signal is not the alarm signal, data conversion is carried out before the data transmission process is carried out; firstly, acquiring a unique identification code of industrial control equipment; then, target data is obtained and processed to obtain numbers and characteristic characters representing the numbers; inserting set contents according to the characteristic characters, randomly inserting the set contents into the combined segment, marking the inserted combined segment as a fused segment, and giving an identifier to the fused segment; and obtaining fusion information of the identifier and the fusion segment combination, and then transmitting.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a block flow diagram of 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.

As shown in fig. 1, the present invention is a remote management method for industrial control equipment, which specifically includes the following steps as a first embodiment of the present invention:

the method comprises the following steps: automatically selecting all managed industrial control equipment, and marking the industrial control equipment as managed equipment;

step two: the method comprises a remote control end and an industrial control equipment end, wherein the remote control end is remote equipment of a manager, and the industrial control equipment end is managed equipment;

firstly, acquiring all managed devices;

step three: the method comprises the following steps of performing remote data acquisition on each managed device, specifically acquiring running data or data required by other users, uniformly marking the data as target data, and performing data conversion before the data transmission process, wherein the specific data conversion mode is as follows:

step 1: the method comprises the steps of obtaining a unique identification code of the industrial control equipment, wherein the unique identification code has uniqueness and can not be modified, and can be a physical address of the equipment or an IP address accessed to a remote network, and the IP address can not be modified and is continuously maintained;

step 2: then, target data is obtained, and the target data is split, wherein the specific splitting mode is as follows:

s01: synchronously acquiring each character in the unique identification code, marking the character as a itemized character, only keeping one same character in the itemized character, and removing the rest content;

s02: acquiring the number of digits of the unique identification code, wherein the digits refer to the number of characters existing in the unique identification code; then removing the repeated characters and only reserving one digit, and then sequencing the rest characters according to the original sequence, wherein the reserved character is the most front digit in the same character;

s03: the remaining characters are then labeled in order as a characteristic character set Ti, i =1.. n, where n is a positive integer;

s04: acquiring target data, and then dividing the target data into a plurality of interval segments according to an interval symbol, wherein the interval symbol is a set distinguishing symbol, such as a punctuation symbol or other set interval symbols, and is divided into a plurality of interval segments; marking the number of interval segments as interval numbers;

s05: dividing the interval number by n, then rounding, and marking the obtained value as an interval value;

s06: then, according to the sequence of the data of the target, selecting interval segments in sequence, selecting interval segments corresponding to consistent interval values in sequence, and marking all the selected interval segments as combined segments; when the last combined segment is selected, if redundant interval segments which cannot be selected exist, the interval segments are fused into the last combined segment;

s07: obtaining n combined sections, wherein each combined section comprises a plurality of interval sections;

step 3: then, each combined segment is endowed with an identifier, and the identifier is a characteristic character corresponding to the corresponding characteristic character set Ti;

step 4: performing full digitalization processing on the characteristic characters, if the characteristic characters are numbers, not needing processing, if the part is English letters, sequencing according to 26 sequences of the English letters a to z, and adding nine to the corresponding sequence number after sequencing to obtain the characteristic characters consisting of the numbers and the representative numbers;

step 5: then, inserting set contents, wherein the set contents are 35 preset contents set by a user, the contents are set by the user, and local storage is provided at a remote control end and an industrial control equipment end;

step 6: acquiring all combined segments and corresponding identifiers thereof, and performing content setting insertion on all combined groups, wherein the specific content setting insertion mode is as follows:

acquiring the number of the identifier, acquiring the setting content in the corresponding sequence, randomly inserting the setting content into the combined segment, and marking the inserted combined segment as a fusion segment; assigning an identifier to the fused segment;

step 7: obtaining a fusion segment with an identifier, and marking the fusion segment as fusion information;

step four: the fusion information after the data conversion process is carried out is transmitted to a remote control end;

as a second embodiment of the present invention, when the third step is involved in the specific implementation process, if the alarm signal or the abnormal signal needs to be maintained in the above process, the remote data acquisition is performed on each managed device, and specifically the target data is acquired, at this time, the target data needs to be determined, and if the target data is the alarm data, the data conversion is not needed, and at this time, the alarm signal is automatically transmitted to the remote control end; when the remote control end receives the alarm signal, the alarm analysis can be automatically carried out, and the specific alarm analysis mode is as follows:

SS 1: when an alarm signal is acquired, all maintenance personnel are automatically acquired, and the maintenance personnel are marked as the regulated personnel Dj, wherein j =1.. m;

SS 2: acquiring real-time positions of all dispatched persons Dj, automatically acquiring the distances from an industrial control equipment end according to the real-time positions, marking the distances as dispatched distances Tj, wherein j =1.. m, and Dj and Tj correspond one to one;

SS 3: then abnormal data is checked to obtain the operation data of the industrial control equipment end when the alarm signal is generated, and the personnel to be regulated are checked according to the operation data, wherein the checking mode is as follows:

SS 301: acquiring all alarm operation data which comprise a plurality of dimensional industrial control equipment end operation parameters, and marking the operation parameters as alarm dimension parameters to obtain a plurality of alarm dimension parameters;

and SS 302: then obtaining abnormal data successfully repaired by all the dispatched personnel, wherein the abnormal data is the operation data content of the corresponding repaired industrial control equipment end in the abnormal time each time, and each abnormal data comprises a plurality of abnormal dimension parameters;

SS 303: optionally selecting all abnormal data of the successfully repaired regulated person, and optionally selecting one abnormal data;

and the SS 304: subtracting the corresponding alarm dimension parameter from each abnormal dimension parameter in the abnormal data, taking an absolute value, summing all absolute values, and marking the obtained value as a single abnormal sum value;

SS 305: processing all the remaining abnormal data in the same way as the SS304 to obtain all single abnormal sum values, and adding all the single abnormal sum values to obtain a value marked as a total abnormal value;

the SS 306: the same processing of the step SS303-SS305 is carried out on the rest of the dispatched persons, and the total different value of all the dispatched persons is obtained;

SS 4: marking the total outlier of the person to be regulated as Yj, j =1.. m; yj is in one-to-one correspondence with Dj and Tj;

SS 5: synchronously acquiring the task quantity left at the hand of the person to be regulated, and marking the task quantity as a residual value Hj, wherein j =1.. m;

SS 6: and calculating the tuning value Qj according to a formula, wherein the specific calculation formula is as follows:

Qj=0.55/Yj+0.32*Tj+0.13/Hj；

in the formula, 0.55, 0.32 and 0.13 are all preset weights; automatically removing dimensions during calculation in the formula;

SS 7: marking the dispatched person Dj corresponding to the maximum value of Qj as a dispatched person;

SS 8: and informing dispatching personnel to process the alarm signal.

As a third embodiment of the present invention, the first embodiment and the second embodiment are implemented in a fusion manner, when data is received, it is first determined whether the data is alarm data, if so, alarm analysis is performed, otherwise, data conversion is performed.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (8)

1. A remote management method for industrial control equipment is characterized by comprising the following steps:

the method comprises the following steps: the system comprises a remote control end and an industrial control equipment end, wherein the remote control end is remote equipment of a manager, and synchronously marks the corresponding industrial control equipment end as managed equipment;

step two: performing remote data acquisition on each managed device to obtain target data; carrying out target data judgment, if the target data is alarm data, carrying out alarm analysis, and determining dispatched personnel to process alarm signals according to the alarm analysis; otherwise, data conversion is carried out before the data transmission process is carried out;

the specific data conversion mode is as follows:

step 1: acquiring a unique identification code of industrial control equipment;

step 2: then, target data is obtained and split, a characteristic character set Ti is determined through the branch characters in the unique identification code, i =1.. n, then, n combined sections are obtained according to the specific attributes of the n characteristic characters, each combined section comprises a plurality of interval sections, and the specific mode of splitting the target data is as follows:

s01: synchronously acquiring each character in the unique identification code, marking the character as a itemized character, only keeping one same character in the itemized character, and removing the rest content;

s02: acquiring the digit of the unique identification code, wherein the digit refers to the number of characters existing in the unique identification code; then removing the repeated characters and only reserving one digit, and then sequencing the rest characters according to the original sequence, wherein the reserved character is the most front digit in the same character;

s03: the remaining characters are then labeled in order as a characteristic character set Ti, i =1.. n, where n is a positive integer;

s04: acquiring target data, and then dividing the target data into a plurality of interval sections according to interval symbols, wherein the interval symbols are set distinguishing symbols and are divided into a plurality of interval sections; marking the number of interval segments as interval numbers;

s05: dividing the interval number by n, then rounding, and marking the obtained value as an interval value;

s06: then, according to the sequence of the data of the target, selecting interval segments in sequence, selecting interval segments corresponding to consistent interval values in sequence, and marking all the selected interval segments as combined segments; when the last combined segment is selected, if redundant interval segments which cannot be selected exist, the interval segments are fused into the last combined segment;

s07: obtaining n combined sections, wherein each combined section comprises a plurality of interval sections;

step 3: then, each combined segment is endowed with an identifier, and the identifier is a characteristic character corresponding to the corresponding characteristic character set Ti; then, the characteristic characters are subjected to full digitalization processing to obtain numbers and characteristic characters representing the numbers;

step 4: then inserting the set content according to the characteristic characters, randomly inserting the set content into the combined segment, and marking the inserted combined segment as a fusion segment; assigning an identifier to the fused segment; obtaining a fusion segment with an identifier, and marking the fusion segment as fusion information;

step three: and transmitting the fusion information after the data conversion process is finished to a remote control end.

2. The remote management method for the industrial control equipment, according to claim 1, wherein the target data in the first step is specifically acquired operation data or data required by other users.

3. The remote management method for the industrial control equipment as claimed in claim 1, wherein the unique identification code in Step1 is unique and can not be modified, and can be the physical address of the equipment or the IP address accessing the remote network, and the IP address does not change.

4. The remote management method for industrial control equipment as claimed in claim 1, wherein the distinguishing symbol in step S04 is a punctuation mark or other set interval symbol.

5. The remote management method for the industrial control equipment, as claimed in claim 1, wherein the specific way of fully digitizing the characteristic characters in Step3 is: if the characteristic character is a number, no processing is needed, if the part is an English letter, the part is sorted according to 26 orders of the English letters a to z, and the corresponding order number after the sorting is added with nine to be a corresponding representative number, so that the characteristic character consisting of the number and the representative number is obtained.

6. The remote management method for the industrial control equipment as claimed in claim 1, wherein the content insertion setting in Step4 is as follows:

acquiring all combined segments and corresponding identifiers thereof;

acquiring the number of the identifier, acquiring the setting content in the corresponding sequence, randomly inserting the setting content into the combined segment, and marking the inserted combined segment as a fusion segment; assigning an identifier to the fused segment;

and obtaining a fusion segment with an identifier, and marking the fusion segment as fusion information.

7. The remote management method for the industrial control equipment as claimed in claim 1 or 6, wherein the setting content is 35 preset setting contents set by a user, the setting contents are set by the user, and the setting contents are stored locally at the remote control end and the industrial control equipment end.

8. The industrial control equipment remote management method according to claim 1,

the alarm analysis is automatically carried out when the remote control end receives the alarm signal transmitted by the industrial control equipment end, and the alarm analysis is specifically carried out in the following mode:

SS 1: when an alarm signal is acquired, all maintenance personnel are automatically acquired, and the maintenance personnel are marked as the regulated personnel Dj, wherein j =1.. m;

SS 2: acquiring real-time positions of all dispatched persons Dj, automatically acquiring the distances from an industrial control equipment end according to the real-time positions, marking the distances as dispatched distances Tj, wherein j =1.. m, and Dj and Tj correspond one to one;

SS 3: then abnormal data is checked to obtain the operation data of the industrial control equipment end when the alarm signal is generated, and the personnel to be regulated are checked according to the operation data, wherein the checking mode is as follows:

SS 301: acquiring all alarm operation data which comprise a plurality of dimensional industrial control equipment end operation parameters, and marking the operation parameters as alarm dimension parameters to obtain a plurality of alarm dimension parameters;

an SS 302: then obtaining abnormal data successfully repaired by all the dispatched personnel, wherein the abnormal data is the operation data content of the corresponding repaired industrial control equipment end in the abnormal time each time, and each abnormal data comprises a plurality of abnormal dimension parameters;

SS 303: optionally selecting all abnormal data of the successfully repaired regulated person, and optionally selecting one abnormal data;

and the SS 304: subtracting the corresponding alarm dimension parameter from each abnormal dimension parameter in the abnormal data, then taking an absolute value, and summing all absolute values to obtain a value marked as a single difference sum value;

the SS 305: processing the rest abnormal data in the same way as in the step SS304 to obtain all single abnormal sum values, adding the single abnormal sum values, and marking the obtained value as a total abnormal value;

the SS 306: the same processing of the step SS303-SS305 is carried out on the rest of the dispatched persons, and the total different value of all the dispatched persons is obtained;

SS 4: marking the total outlier of the person to be regulated as Yj, j =1.. m; yj is in one-to-one correspondence with Dj and Tj;

SS 5: synchronously acquiring the task amount left by the hand of the person to be regulated, and marking the task amount as a left numerical value Hj, wherein j =1.. m;

SS 6: and calculating the tuning value Qj according to a formula, wherein the specific calculation formula is as follows:

Qj=0.55/Yj+0.32*Tj+0.13/Hj；

SS 7: marking the dispatched personnel Dj corresponding to the maximum value of Qj as dispatching personnel;

SS 8: and informing dispatching personnel to process the alarm signal.

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