CN110781635A - Rapid automatic design method and system for complex system contact list - Google Patents

Abstract

The invention discloses a rapid automatic design method and a system of a contact list of a complex system, wherein the method comprises the following steps: step S1, IDS data reading, data form of each stand-alone is obtained; step S2, comparing the contact information of each contact of each single machine to generate a contact connection relation and obtain a final design result; step S3, check and change feedback: when the checking result is that the IDS is not required to be changed, directly entering the next step; when the inspection result is that the IDS is required to be changed, outputting the design result to the IDS data input end, and continuing to the steps S1-S3; in step S4, a system contact table is output. The invention can complete the generation of the connection relation of the connection points by adopting a four-level combined matching method of accurate matching, content equivalent matching, fuzzy recognition matching and manual matching according to the input of IDS data, efficiently and automatically generates the system connection point table, and ensures the rapidity, the accuracy and the reliability of the design work of the connection point table.

Description

Rapid automatic design method and system for complex system contact list

Technical Field

The invention relates to a rapid automatic design method and a rapid automatic design system for a contact list of a complex system.

Background

At present, in the conventional contact list design, a designer manually completes coordination and distribution of tens of thousands of contacts according to IDS (stand-alone interface data sheet standardized file) information of a matched stand-alone product by using Excel software through personal experience, and finally forms a book. The method has the advantages of frequent joint coordination change, large workload, low efficiency, large joint scale, high manual distribution error rate and poor reliability.

Therefore, it is necessary to develop a rapid automatic design method of a contact list of a complex system to replace the conventional contact list design method. The method can efficiently generate the system contact list and ensure the rapidity, the accuracy and the reliability of the contact list design work.

Disclosure of Invention

The invention provides a rapid automatic design method of a contact list of a complex system. The system contact list can be efficiently and automatically generated according to the input of the data list standardized file (IDS) of the single-computer interface, and the rapidity, the accuracy and the reliability of the contact list design work are ensured.

In order to achieve the above object, the present invention provides a method for fast and automatically designing a contact list of a complex system, comprising the following steps:

step S1, IDS (stand-alone interface data sheet standardized file) data reading, and obtaining data form of each stand-alone, where the data form is a data source for generating system contact list, and includes: a single machine serial number, a connector serial number, a contact serial number, contact information and a contact trend; the IDS software interface is called to read the relevant information needed by the system contact list;

step S2, comparing the contact information of each contact of each single machine to generate a contact connection relation and obtain a design result; the connection relation of the connection points refers to the corresponding connection relation between the connection point of one connector of one single machine and the other connection point of the other connector of the other single machine;

step S3, check and change feedback:

and checking the design result:

when the checking result is that the IDS is not required to be changed, directly entering the next step;

when the inspection result indicates that the IDS change is required, outputting the design result to the IDS data input end for changing, and continuing to the steps S1-S3 (until the inspection result indicates that the IDS change is not required);

step S4, outputting a system contact list;

in step 2, the method for generating the connection relation of the contacts includes: according to actual requirements, any two or more stages of combined matching methods including accurate matching, content equivalent matching, fuzzy recognition matching and manual matching are adopted in sequence, and the efficiency of automatic matching of the connection relation of the contacts is improved without affecting the matching accuracy.

Preferably, in step 2, the method for generating the connection relationship between the contacts includes: and a four-level combined matching method of precise matching, content equivalent matching, fuzzy recognition matching and manual matching is adopted in sequence, so that the automatic matching efficiency of the connection relation of the contacts is improved without influencing the matching accuracy.

Preferably, said exact match comprises: and S2.1, automatically matching the two contacts with completely consistent contact information to obtain a first design result.

Preferably, the exact match further comprises: s2.2, performing first logic judgment on the first design result, and outputting the first design result to perform content equivalent matching when the content equivalent matching is required; and when the equivalent matching of the contents is not needed, outputting the first design result as a final design result.

Preferably, the content equivalence matching comprises: and S2.3, automatically matching the contact information of the two contacts by stipulating (setting) corresponding equivalent contents to obtain a second design result.

Preferably, the content equivalence matching further comprises: s2.4, performing second logic judgment on the second design result, and outputting the second design result to perform fuzzy recognition matching when the fuzzy recognition matching is required; and when the fuzzy recognition matching is not needed, outputting the second design result as a final design result.

This content equivalence matching is used to solve problems caused by different designers writing IDS files with different description conventions.

Preferably, the fuzzy recognition matching comprises: s2.5, performing information integration optimal solution for optimal matching through key words, contact trends and connector serial numbers of contact information to obtain a third design result; the optimal solution refers to the key words, the contact trend or the connector serial number of the two contacts with the maximum number of the same or same-meaning contact information, and the priority is the key words > the contact trend > the connector serial number of the contact information.

Preferably, the fuzzy recognition matching further comprises: s2.6, performing third logic judgment on the third design result, and outputting the third design result to perform manual matching when the third design result needs to be manually matched; when the manual matching is not required, the third design result is output as a final design result.

Because the matching accuracy of the four schemes is different, the priority is specified, a designer can select according to requirements, and can distinguish the contact connection relation results matched in the used mode through modes of different colors or different fonts and the like, so that a checker can conveniently and efficiently check, for example, the precise matching is adopted without re-checking, for equivalent matching spot check, for fuzzy recognition matching each check, for manual matching double checks, for setting higher-level approval and the like.

The invention also provides a rapid automatic design system of the contact list of the complex system, which comprises: an IDS data input module, an IDS data reading module, a contact relation generating (namely contact connection relation) module, an inspection feedback module and a system contact table output module;

the IDS data input module comprises a plurality of stand-alone data forms, and the data forms comprise: a single machine serial number, a connector serial number, a contact serial number, contact information and a contact trend;

the IDS data reading module is used for reading the data form information of the IDS data input module;

the contact relation generating module is used for comparing contact information of each contact of each single machine to obtain a design result;

the checking feedback module is used for checking the design result: when the inspection result is that the IDS is not required to be changed, the inspection result is directly output to a system contact table output module; and when the inspection result indicates that the IDS is required to be changed, outputting the design result to the IDS data input module.

Preferably, the contact relation generating module includes an exact matching module, a content equivalent matching module, a fuzzy matching module and a manual matching module, which are sequentially arranged. The accurate matching module is provided with a first logic judgment module for judging whether equivalent matching is needed; the content equivalent matching module is provided with a second logic judgment module for judging whether fuzzy matching is needed or not; the fuzzy matching module is provided with a third logic judgment module for judging whether manual matching is needed.

Because the matching accuracy rates of the four schemes are different, the invention can also design a checking process to carry out targeted checking, such as setting a checking process for content equivalent matching, and setting a checking and auditing process for fuzzy recognition and manual matching results. And if the design check result shows that the matching rate is not high or the design result is wrong due to the information input by the IDS, applying for IDS input change feedback, displaying the content to be changed, and forming a design closed loop.

The invention provides a rapid automatic design method of a contact list of a complex system. The system contact list can be efficiently and automatically generated according to the input of the data list standardized file (IDS) of the single-computer interface, and the rapidity, the accuracy and the reliability of the contact list design work are ensured. The invention adopts a four-level combined matching method of precise matching, content equivalent matching, fuzzy recognition matching and manual matching to finish the generation of the connection relation of the connection points, thereby improving the automatic matching efficiency of the connection relation of the connection points without influencing the matching accuracy.

Drawings

FIG. 1 is a flow chart of a method for rapid automated design of a contact list for a complex system according to the present invention.

Detailed Description

The technical solution of the present invention is specifically described below with reference to the accompanying drawings.

As shown in fig. 1, the method for rapid automated design of a contact list of a complex system according to the present invention comprises the following steps:

step S1, IDS data reading, and obtaining data form of each individual from the IDS document input module, where the data form includes: a single-machine serial number, a connector serial number, a contact serial number, contact information, and a contact orientation.

Step S2, comparing the contact information of each contact of each single machine to generate a contact connection relation and obtain a final design result; the connection relationship of the contacts refers to the corresponding connection relationship between the contacts of one connector of one stand-alone unit and the other contacts of the other connector of the other stand-alone unit.

The contact connection relation generation method comprises the following steps: according to actual requirements, any two or more stages of combined matching methods including accurate matching, content equivalent matching, fuzzy recognition matching and manual matching are adopted in sequence, and the efficiency of automatic matching of the connection relation of the contacts is improved without affecting the matching accuracy. For example, 2-level matching of precise matching and content equivalent matching is performed according to actual conditions, and a design result is output; or 3-level matching of precise matching, content equivalent matching and fuzzy recognition matching, and outputting a design result; or four-level matching of precise matching, content equivalent matching, fuzzy recognition matching and manual matching is carried out, and a design result is output.

Step S3, check and change feedback:

checking the final design result:

when the checking result is that the IDS is not required to be changed, directly entering the next step;

when the inspection result indicates that the IDS is required to be changed, the design result is output to the IDS data input end for changing, and the steps S1-S3 are continued.

In step S4, a system contact table is output.

The exact match includes: and S2.1, automatically matching the two contacts with completely consistent contact information to obtain a first design result.

The exact match further comprises: s2.2, performing first logic judgment on the first design result, and outputting the first design result to perform content equivalent matching when the content equivalent matching is required; and when the equivalent matching of the contents is not needed, outputting the first design result as a final design result.

The content equivalent matching comprises the following steps: and S2.3, automatically matching the contact information of the two contacts by setting corresponding equivalent contents to obtain a second design result.

The content equivalent matching further comprises: s2.4, performing second logic judgment on the second design result, and outputting the second design result to perform fuzzy recognition matching when the fuzzy recognition matching is required; and when the fuzzy recognition matching is not needed, outputting the second design result as a final design result.

The fuzzy recognition matching comprises: s2.5, performing information integration optimal solution for optimal matching through key words, contact trends and connector serial numbers of contact information to obtain a third design result; the optimal solution is that the contact information of two contacts has the maximum number of the same or synonymous key words, signal trends or connectors, wherein the priority is the key words > the contact trends > the connector serial number of the contact information. The maximum number of the key words is judged to be optimal, when the number of the key words is the same, the matching degree of the contact trend is compared, and the like.

The fuzzy recognition matching further comprises: s2.6, performing third logic judgment on the third design result, and outputting the third design result to perform manual matching when the third design result needs to be manually matched; when the manual matching is not required, the third design result is output as a final design result.

The manual matching is that an operator matches according to experience or logic, the matching result is a fourth design result, and the fourth design result is output as a final design result.

The invention also designs that the first design result, the second design result, the third design result and the third design result are distinguished by different degrees, such as different colors, so that the grading inspection of different degrees can be conveniently realized in the inspection program, and the method is more efficient and accurate.

The following description will be given with reference to specific examples.

Example 1

The invention provides a rapid automatic design method of a contact list of a complex system, which comprises the following steps:

step S1, IDS data reading

A system with 3 stand-alone computers and one connector for each stand-alone computer is used for reading data by taking IDS files of the 3 stand-alone computers as input, and the obtained stand-alone data form is shown in a table 1.

Table 1: data form for a single machine 1-3

Note: wherein, MGQ is the pinyin acronym of the sensor, which is the writing habit of some technicians, so that an MGQ equivalent sensor is set.

Step S2, contact connection relation creation

1. The results are obtained by exact matching: the contact 1 of the connector 1-1 of the single machine 1 is matched with the contact 2 of the connector 2-1 of the single machine 2;

2. setting equivalent content: a sends B equivalence B to receive A, MGQ equivalence sensor, obtains the result through the equivalent matching of content: the contact 2 of the connector 1-1 of the single machine 1 is matched with the contact 2 of the connector 3-1 of the single machine 3, and the contact 3 of the connector 2-1 of the single machine 2 is matched with the contact 1 of the connector 3-1 of the single machine 3;

3. the contact 3 of the connector 1-1 of the single machine 1 is matched with the contact 1 of the connector 2-1 of the single machine 2, and fuzzy matching is carried out through the keyword 'temperature' and the contact trend.

4. And the judgment does not need manual matching, and the next step is automatically carried out.

Step S3, design check and change feedback

Through design check, all single contacts of the system are matched, and the IDS change is not needed to be carried out, so that the next step is carried out.

And step S4, outputting a system contact point table.

And setting a corresponding file format output system contact list according to personal needs.

In conclusion, the invention can efficiently and automatically generate the system contact list by the multi-stage matching method of more than two combinations of the sequence of accurate matching, content equivalent matching, fuzzy recognition matching and manual matching of the read IDS data according to the actual requirements, thereby ensuring the rapidity, the accuracy and the reliability of the contact list design work.

While the present invention has been described in detail with reference to the preferred embodiments, it should be understood that the above description should not be taken as limiting the invention. Various modifications and alterations to this invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the invention should be determined from the following claims.

Claims (10)

1. A rapid automatic design method for a complex system contact list is characterized by comprising the following steps:

step S1, IDS data reading, and obtaining data form of each individual, where the data form includes: a single machine serial number, a connector serial number, a contact serial number, contact information and a contact trend;

step S2, comparing the contact information of each contact of each single machine to generate a contact connection relation and obtain a final design result; the connection relation of the connection points refers to the corresponding connection relation between the connection point of one connector of one single machine and the other connection point of the other connector of the other single machine;

step S3, check and change feedback:

checking the final design result:

when the checking result is that the IDS is not required to be changed, directly entering the next step;

when the inspection result is that the IDS is required to be changed, outputting the design result to the IDS data input end for changing, and continuing to the steps S1-S3;

step S4, outputting a system contact list;

in step 2, the method for generating the connection relation of the contacts includes: according to actual requirements, any two or more stages of combined matching methods including accurate matching, content equivalent matching, fuzzy recognition matching and manual matching are adopted in sequence, and the efficiency of automatic matching of the connection relation of the contacts is improved without affecting the matching accuracy.

2. The method according to claim 1, wherein in step 2, the method for generating the connection relationship of the contacts is: and a four-level combined matching method of precise matching, content equivalent matching, fuzzy recognition matching and manual matching is adopted in sequence, so that the automatic matching efficiency of the connection relation of the contacts is improved without influencing the matching accuracy.

3. A method for rapid automated design of a contact list for a complex system according to claim 1 or 2, wherein the exact match comprises: and S2.1, automatically matching the two contacts with completely consistent contact information to obtain a first design result.

4. The method of claim 3, wherein the exact match further comprises: s2.2, performing first logic judgment on the first design result, and outputting the first design result to perform content equivalent matching when the content equivalent matching is required; and when the equivalent matching of the contents is not needed, outputting the first design result as a final design result.

5. The method of claim 4, wherein the content-equivalent matching comprises: and S2.3, automatically matching the contact information of the two contacts by setting corresponding equivalent contents to obtain a second design result.

6. The method of claim 5, wherein the content-equivalent matching further comprises: s2.4, performing second logic judgment on the second design result, and outputting the second design result to perform fuzzy recognition matching when the fuzzy recognition matching is required; and when the fuzzy recognition matching is not needed, outputting the second design result as a final design result.

7. The method of claim 6, wherein the fuzzy recognition matching comprises: s2.5, performing information integration optimal solution for optimal matching through key words, contact trends and connector serial numbers of contact information to obtain a third design result; the optimal solution refers to that the contact information of the two contacts has the maximum number of identical or synonymous keywords, signal trends or connectors, wherein the priority is the keyword word > the contact trend > the serial number of the connector of the contact information.

8. The method of claim 7, wherein the fuzzy recognition matching further comprises: s2.6, performing third logic judgment on the third design result, and outputting the third design result to perform manual matching when the third design result needs to be manually matched; when the manual matching is not required, the third design result is output as a final design result.

9. A rapid automated design system for a contact list of a complex system, the system comprising: an IDS data input module, an IDS data reading module, a contact relation generating module, an inspection feedback module and a system contact table output module;

the IDS data input module comprises a plurality of stand-alone data forms, and the data forms comprise: a single machine serial number, a connector serial number, a contact serial number, contact information and a contact trend;

the IDS data reading module is used for reading the data form information of the IDS data input module;

the contact relation generating module is used for comparing contact information of each contact of each single machine to obtain a design result;

the checking feedback module is used for checking the design result: when the inspection result is that the IDS is not required to be changed, the inspection result is directly used as a final design result and is output to a system contact table output module; and when the inspection result indicates that the IDS is required to be changed, outputting the design result to an IDS data input module.

10. The system according to claim 9, wherein the contact relation generating module comprises at least two of an exact matching module, a content equivalent matching module, a fuzzy matching module and a manual matching module; the accurate matching module is provided with a first logic judgment module for judging whether equivalent matching is needed; the content equivalent matching module is provided with a second logic judgment module for judging whether fuzzy matching is needed or not; the fuzzy matching module is provided with a third logic judgment module for judging whether manual matching is needed.

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