KR20150047406A - System and method for converting ontology-based rule set into bim model checker rule set for bim quality check - Google Patents

Abstract

A method for converting ontology-based rule set into BIM model checker rule set for checking the quality of BIM according to the present invention comprises: converting the name of a class or a property within each class rule-defining phrase extracted from the ontology-based rule set into the name of a variable or a function used in the BIM model checker referring to a mapping table for converting the name of a class or a property based on the ontology-based rule set into the name of a variable or a function used in the BIM model checker; translating the rule-defining phrase of the ontology-based rule set with the name converted into a rule-deciding code written in at least one goal-programming language for the BIM model checker; and saving the rule set for the BIM model checker built with the translated rule-deciding phrases of at least one goal-programming language at a rule set database for the BIM model checker.

Description

TECHNICAL FIELD The present invention relates to a system and method for converting an ontology-based rule set to a rule set for a BIM model checker for reviewing quality of a BIM,

Field of the Invention The present invention relates to BIM quality review, and more particularly, to a rule set for a BIM model checker.

As the size and complexity of construction projects grows and regulations and guidelines evolve and evolve, from the architectural planning and design phase, to the documentation that must be verified to ensure that the design complies with the regulations of the country of origin, Volume, processing time, and workload are also rapidly increasing. Until now, these tasks have been handled by hand, but it takes more and more time and labor, and accuracy is not guaranteed.

In the field of building design, construction and supervision, information processing technology has been rapidly adopted, and most of the designs have become digitized computer-aided design (CAD) technology. CAD technology is gradually being applied to construction and management, and it is evolving into BIM (Building Information Model) technology, and government agencies are obliged to use BIM when ordering a project.

As a result, the BIM quality review technology and market have been emerging to examine the BIM built up for certain construction projects to comply with laws and guidelines, and the rule-based BIM quality review automation system which automatically examines the BIM model is developed .

This rule-based BIM quality review automation system, the BIM model checker, requires a set of rules, called rule sets, to automatically review the rules. Since the state, local governments and regulatory agencies have different legal provisions and the contractors of the construction project have different guidelines, it is limited to reuse the rulesets constructed for one project in other construction projects.

Therefore, there is a need for an approach that can efficiently generate rule sets from various legal regulations and guidelines.

A problem to be solved by the present invention is to provide a rule set conversion system and method for a BIM model checker of an ontology-based ruleset for BIM quality review.

A problem to be solved by the present invention is to provide a rule set conversion system and method for a BIM model checker of an ontology-based ruleset that is easy to expand and modify rules.

A problem to be solved by the present invention is to provide a rule set conversion system and method for a BIM model checker of an ontology-based rule set that can be constructed from a natural language, can be read, interpreted and expressed by a machine, and can be shared and reused.

A problem to be solved by the present invention is to provide a rule set conversion system and method for a BIM model checker of an ontology-based ruleset that can examine the logic of rules in a ruleset in advance.

The solution to the problem of the present invention is not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

A rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an aspect of the present invention includes:

Refers to a mapping table for converting the name of a class or property of an ontology-based rule set into a variable or a function name used in the BIM model checker and specifies the name of the class or attribute in each rule definition syntax extracted from the ontology- Into a variable or function name used in the BIM model checker;

Translating the rule definition syntax of the ontology-based ruleset whose names are converted into a rule determination code written in at least one target programming language for the BIM model checker; And

And storing a rule set for the BIM model checker constructed as the rule determination syntax of at least one translated programming language in the rule set DB for the BIM model checker,

The ontology-based rule set includes classes that classify nouns, which are extracted from rule statements or phrases, which are to be included in rule sets into a rule set, according to a consistent classification rule, and rules And ontology rule definitions defined by referring to properties or rule statements or phrases for describing the classes derived from the verbs or adjectives corresponding to the rules.

According to one embodiment, translating into the rule verdict code comprises:

Generates a logical expression expression code that returns an operation value by performing a logical operation equivalent to a logical expression expression of the ontology rule definition syntax on the basis of the converted name and the library and grammar of the target programming language, And creating a rule determination code in the target programming language based on the rule determination code.

According to one embodiment, translating into the rule verdict code comprises:

The method may further include generating a rule determination code written in the target programming language by adding the header and the footer given for the BIM model checker to the generated logical expression code as a body have.

According to one embodiment, a rule set conversion method for a BIM model checker of an ontology-based ruleset for BIM quality review includes:

Storing the rule phrases or phrases in a natural language extracted from documents read from a document DB in a rule sentence DB;

The nouns to be the subject of the rule to be included in the rule set extracted from the rule sentences or phrases stored in the rule sentence database and the verbs or adjectives corresponding to the rule contents are reclassified with reference to the classification reference table Storing classes defined from nouns and attributes derived from verbs or adjectives extracted to describe the classes in a class and attribute DB;

Based on rule statements stored in the rule statement DB, an entry and hierarchical structure of classes defined by referring to the classes and attributes stored in the class DB and the attribute DB, and an ontology constructed by receiving attributes of each class, ; And

Storing the ontology-based ruleset constructed by adding the ontology rule definitions to the ontology stored in the ontology DB, receiving the ontology rule definitions defined by referring to the natural language rule sentences stored in the rule sentence DB, and storing the ontology rule set in the ontology DB .

According to another aspect of the present invention, there is provided a computer program for implementing a method of transforming a rule set for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an embodiment of the present invention, And may be a recording medium that can be read from the computer.

According to another aspect of the present invention, there is provided a rule set conversion system for a BIM model checker of an ontology-

Refers to a mapping table for converting the name of a class or property of an ontology-based rule set into a variable or a function name used in the BIM model checker and specifies the name of the class or attribute in each rule definition syntax extracted from the ontology- A mapping unit for converting the parameter into a variable or function name used in the BIM model checker;

A rule syntax translator for translating a rule definition syntax of an ontology-based ruleset whose names are converted into a rule determination code written in at least one target programming language for a BIM model checker; And

And a rule set DB for a BIM model checker for storing a rule set for a BIM model checker constructed as rule determination statements of at least one translated programming language,

The ontology-based rule set includes classes that are classified according to a consistent classification standard, which are nouns that are extracted from rule statements or phrases and are to be the subject of rules to be included in rule sets, Can be constructed with ontology rule definitions defined with reference to attributes and rule statements or phrases describing the classes derived from verbs or adjectives.

According to one embodiment, the rule phrase translator comprises:

Generates a logical expression expression code that returns an operation value by performing a logical operation equivalent to a logical expression expression of the ontology rule definition syntax on the basis of the converted name and the library and grammar of the target programming language, To generate a rule verdict code in the target programming language.

According to one embodiment, the rule phrase translator comprises:

And generate a rule determination code written in the target programming language by adding the given header and footer for the BIM model checker to the generated logical expression code body.

According to one embodiment, a rule set conversion system for a BIM model checker of an ontology-based ruleset for reviewing BIM quality comprises:

The rule sentences or phrases in natural language extracted from the documents read from the document DB,

The nouns to be the subject of the rule to be included in the rule set extracted from the rule sentences or phrases stored in the rule sentence database and the verbs or adjectives corresponding to the rule contents are reclassified with reference to the classification reference table Classes and attributes DB for storing classes defined from nouns, attributes derived from extracted verbs or adjectives to describe classes; And

Based on rule statements stored in the rule statement DB, an entry and hierarchical structure of classes defined by referring to the classes and attributes stored in the class DB and the attribute DB, and an ontology constructed by receiving attributes of each class, Based on rule rules defined by referring to the natural language based rule sentences stored in the rule sentence DB and adding the ontology rule definitions to the ontology stored in the ontology DB to store the ontology based ruleset in the ontology DB And an ontology editing unit for performing ontology editing.

A recording medium readable by a computer according to another aspect of the present invention includes a computer capable of operating a computer as a rule set conversion system for a BIM model checker of an ontology-based ruleset for reviewing BIM quality according to an embodiment of the present invention. And may be a recording medium that can be read out from a computer in which the program is stored.

According to the ruleset conversion system and method for the BIM model checker of the ontology-based ruleset for reviewing the BIM quality of the present invention, it is easy to extend and modify the rules of the ruleset for the BIM model checker.

According to the ruleset conversion system and method for the BIM model checker of the ontology-based rule set for reviewing the BIM quality of the present invention, it can be constructed from natural language, can be read, interpreted and expressed by the machine, and can be shared and reused.

According to the ruleset conversion system and method for the BIM model checker of the ontology-based rule set for reviewing the BIM quality of the present invention, the logic of the rules in the ruleset for the BIM model checker can be reviewed in advance in the construction step of the ontology-based ruleset.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

1 is a conceptual diagram illustrating a rule set conversion system for a BIM model checker of an ontology-based ruleset for reviewing a BIM quality according to an embodiment of the present invention.
FIG. 2 is a flowchart illustrating a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating rule statements or phrases extracted from rule or guidance documents in a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing BIM quality according to an embodiment of the present invention.
FIG. 4 is a diagram illustrating nouns, verbs, or adjective terms extracted from rule sentences or phrases in a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing BIM quality according to an exemplary embodiment of the present invention.
FIG. 5 is a diagram illustrating a rule set conversion rule for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an embodiment of the present invention. Referring to FIG. 5, And a tool for constructing an ontology based on attributes derived from the extracted verb or adjective terms.
6 illustrates an example of a tool for constructing ontology rule definitions based on natural language rules included in a rule or guidance document in a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an embodiment of the present invention. Fig.
FIG. 7 is a diagram illustrating a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an exemplary embodiment of the present invention. FIG. 7 illustrates a method for constructing a rule set for a BIM model checker from an ontology- FIG. 8 is a diagram illustrating a mapping table storing a mapping relationship; FIG.
FIG. 8 is a flowchart illustrating a method of converting a ruleset of an ontology-based ruleset into a rule of a ruleset for a BIM model checker by referring to a mapping table in a ruleset conversion method for a BIM model checker of an ontology-based ruleset for reviewing BIM quality according to an embodiment of the present invention Tool and converted syntax.
FIG. 9 is a flowchart illustrating a rule-based transformation rule for a BIM model checker of an ontology-based ruleset for reviewing a BIM quality according to an embodiment of the present invention. The ontology-based rule syntax, the python- A JAVA-based rule syntax, a C # -based rule syntax, and a pseudo code-based rule syntax, respectively.

For the embodiments of the invention disclosed herein, specific structural and functional descriptions are set forth for the purpose of describing an embodiment of the invention only, and it is to be understood that the embodiments of the invention may be practiced in various forms, The present invention should not be construed as limited to the embodiments described in Figs.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

1 is a conceptual diagram illustrating a rule set conversion system for a BIM model checker of an ontology-based ruleset for reviewing a BIM quality according to an embodiment of the present invention.

Referring to FIG. 1, a rule set conversion system 10 for a BIM model checker may include a document analysis unit 11, an ontology-based rule set construction unit 12, and a rule set conversion unit 13.

The document analyzer 11 extracts verbs or adjectives corresponding to the contents of the rule and the nouns to be the subject of the rule to be included in the rule set from the rule sentences or phrases from the legal regulations and guidelines and extracts the extracted nouns from a consistent classification standard , And stores properties for describing the classes derived from the extracted verbs or adjectives.

Here, classes and attributes are terms defined in the context of ontology components. A class is a collective name of an object or concept of an ontology, and an attribute is a relational function that describes a specific property, a propensity, a value, a definition, and a relation of a class.

For example, the "pillars" of a building are classes, and the content that specifies that these pillars "have a certain thickness, strength, and height" is an attribute.

Specifically, the document analysis unit 11 includes a document database (DB) 111, a sentence extraction unit 112, a rule sentence DB 113, a term extraction unit 114, a classification reference table 115, Definition portion 116 and a class and attribute DB 117. [

The document DB 111 is a common norm that underlies the quality review of the BIM model, including various legal provisions such as construction, environment, safety, fire, electricity, labor, licensing, and RFP And various kinds of documents written in natural language, including.

The sentence extracting unit 112 extracts rule sentences or phrases in natural language from the documents read from the document DB 111 and stores them in the rule sentence DB 113. [

The term extraction unit 114 extracts nouns, verbs or adjective terms from the extracted rule sentences or phrases.

3 is a block diagram illustrating a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an embodiment of the present invention. FIG. 4 is a diagram illustrating rule sentences or phrases extracted from the rule list.

In Fig. 3, the sentences or phrases in the proposal for the building project of the mother hospital, for example, under the subheading of "general operating room "," the effective area of the room excluding the fixed wall cabinets and shelves is at least 37.16 m2, Sentences or phrases written in natural language with respect to conditions such as "a minimum of 6.10m" (omitted below).

Since these sentences or phrases are the requirements of the client, it is a rule sentence that must be adhered to. It is a sentence which is a standard for examining CAD data of a building by hand and checking whether the space is designed to actually satisfy the presented conditions admit. In order to automate the BIM quality review, rulesets must first be constructed based on these natural language sentences.

Referring now to FIG. 4 to illustrate nouns, verbs, or type forgery terms extracted from rule sentences or phrases, FIG. 4 is a block diagram of an ontology-based rule set for BIM quality review according to an embodiment of the present invention. FIG. 6 is a diagram illustrating nouns, verbs, or adjective terms extracted from rule sentences or phrases in a rule set conversion method for a model checker.

In Fig. 4, noun terms corresponding to the class concept of the ontology, for example, "Inspection "," Inspection Room ", and "Optometry Room" Examples are verb or adjective terms corresponding to the notion of ontology, for example, "re-supply", "relocate", "re-import".

The classification reference table 115 holds classification reference data of at least one classification system among the classification systems such as the construction information classification system of the Ministry of Land, Transport and Maritime Affairs, the MasterFormat of the United States, the Uniclass of the United Kingdom, and the IFC data structure of the international construction standard do.

Extracted terms may need to be adjusted to a consistent classification standard for reuse and sharing, as they may vary slightly from each other in accordance with individual legal provisions or the owner's own guidelines.

For this purpose, the term extraction unit 114 may first reclassify nouns, verbs, or adjective terms extracted from rule-related natural language sentences or phrases by referring to the classification criteria table 115. [

At this time, most of the classification criteria schemes include a hierarchy or a thesaurus, making it suitable for constructing an ontology with a hierarchical structure between objects.

The class and attribute defining unit 116 stores classes or attributes for the ontology in the class and attribute DB 117, respectively, which are derived based on reclassified terms according to a given given classification standard system.

The ontology-based ruleset construction unit 12 may include an ontology editing unit 121 and an ontology DB 122.

The ontology editing unit 121 extracts the natural language based rule sentences stored in the rule sentence DB 113 and the entries and hierarchical structures of the classes defined by referring to the classes and attributes stored in the class DB and the attribute DB 117, And stores the constructed ontology in the ontology DB 122. The ontology DB 122 receives the defined ontology rule definitions with reference to the natural language based rule sentences stored in the rule sentence DB 113 and receives the ontology stored in the ontology DB 122 The ontology-based rule set constructed by adding the ontology rule definitions can be stored in the ontology DB 122.

5 is a block diagram illustrating a method of transforming a ruleset for a BIM model checker of an ontology-based rule set for reviewing BIM quality according to an embodiment of the present invention. Referring to FIG. 5, The classes derived from the extracted noun terms, and the attributes derived from the extracted verb or adjective terms.

Referring to FIG. 5, a predetermined hierarchical structure is given to the classes specified in FIG. For example, there are classes called "Outpatient Department", "Funeral Department", "Central Treatment Department" in the lower hierarchy of the hospital which is the highest class, "Funeral space", "Funeral space" There are classes called. In addition, there are classes such as "empty space" and "dead space" in the lower layer of the "funeral space" class, and there are instances such as "empty space-VIP room" in the lower layer of the "empty room" class.

In addition, specific attributes are assigned to each class to describe the class based on rule sentences or phrases. For example, the "empty" class has a relationship property that there is a "funeral space" class at the top and a "body processing storage space" class at the same level, and a relationship property that the building elements to be installed in the space, &Quot; Blank class "is given by holding properties that have building elements such as material separator, panel heating.

The ontology can be constructed by defining the hierarchy of classes and the attributes that describe each class.

Referring now to FIG. 6, to illustrate the addition of ontology rule definitions based on the Semantic Web Rule Language (SWRL) to add rules that must satisfy the attributes of each class in the constructed ontology, FIG. 8 is a diagram illustrating a tool for constructing ontology rule definitions based on natural language rules included in a rule or guidance document in a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing BIM quality according to an embodiment.

In FIG. 6, the natural language-based rules are each converted to logical expressions of related classes and their attributes and added to the ontology.

For example, a logical expression is defined and added to the "empty" class to determine whether the value of the floor area attribute of the "empty" class is set and whether the value of the floor area property is within the specified range .

On the other hand, the logic expression corresponding to this ontology rule definition is actually a combination of if statements, so that it can be translated into a number of advanced programming languages having a similar if syntax.

The rule set conversion unit 13 includes a mapping table 131 for converting the name of the class or attribute of the ontology-based rule set into a variable or a function name used in the BIM model checker, a mapping table 131 for converting an ontology read from the ontology DB 122, A mapping unit 132 for converting the name of a class or attribute in each rule definition syntax extracted from the rule rule definition into a variable or function name used in the BIM model checker by referring to the mapping table 131, A rules syntax translator 133 for translating rule definition syntax of the underlying ruleset into rule determination codes written in at least one target programming language for the BIM model checker and a BIM model checker built with rules translation rules of at least one programming language And a rule set DB 134 for a BIM model checker for storing a rule set.

More specifically, the rule syntax translator 133 generates a logical expression expression code that performs a logical operation equivalent to the logical expression expression of the ontology rule definition syntax and returns an operation value, based on the translated name, the library of the target programming language, and the grammar , And the rule determination code in the target programming language can be generated based on the generated logical expression expression code.

For example, the rule syntax translator 133 declares a variable corresponding to a class appearing in the ontology rule definition syntax, calls a function corresponding to the attribute appearing in the ontology rule definition syntax, A rule judgment code can be generated by generating a conditional statement such as "if a > = 250" corresponding to a logical expression such as "

Furthermore, the rule syntax translator 133 uses the generated logic expression code as a body, adds a header and a footer to the BIM model checker, and outputs a rule determination code written in the target programming language Can be generated.

7 illustrates the relationship between the name of a class or attribute of an ontology-based rule set and a variable or function name used in the BIM model checker. FIG. 7 is a flowchart illustrating a method of analyzing a BIM quality according to an exemplary embodiment of the present invention. FIG. 5 is a diagram illustrating a mapping table storing a method mapping relationship for building a rule set for a BIM model checker from an ontology-based rule set constructed by including rule definition statements in a rule set conversion method for a BIM model checker of an ontology-based rule set.

In FIG. 7, the name of the class "Area" in the ontology-based rule set can correspond to the name of the variable "Area" used in the BIM model checker to be created in the python language. In addition, the name of the property "hasRuleCategory" in the ontology-based rule set can correspond to the name of the function "hasRuleCategory" used in the BIM model checker to be created in the python language.

8 is a flow chart illustrating a BIM quality check according to an exemplary embodiment of the present invention. FIG. 8 is a flowchart illustrating a BIM quality check according to an exemplary embodiment of the present invention. Referring to FIG. 8, FIG. 2 is a diagram illustrating a tool for converting the syntax of an ontology-based rule set into a syntax of a rule set for a BIM model checker by referring to a mapping table in a rule set conversion method for a BIM model checker of an ontology-based rule set.

In FIG. 8, rule determination codes in which rule definition syntax of an ontology-based ruleset is translated into a python language, a Java language, a C # language, and a pseudo code language, respectively, are exemplified.

9 is a flowchart illustrating a method of converting a rule set for a BIM model checker of an ontology-based ruleset for reviewing a BIM quality according to an embodiment of the present invention. FIG. 9 shows an ontology-based syntax, a python- (JAVA) -based code, a C # -based code, and a pseudo code-based code in XML format.

In FIG. 9, in the case where the natural language-based rule syntax is "VIP room (250m2 standard in case of an empty space)", the ontology-based rule definition syntax is defined by a logical operation expression written in SWRL and performs logical operation equivalent to this logical operation expression Python, Java, C #, and pseudo-code-based rule-checking codes, respectively, were created to do this.

Rule decision codes are generated separately for each natural language based rule syntax, so reuse and sharing are easy.

FIG. 2 is a flowchart illustrating a rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality according to an embodiment of the present invention.

2, a rule set conversion method for a BIM model checker of an ontology-based rule set for BIM quality review is a method in which a rule set conversion system 10 for a BIM model checker reads in a rule set from a document DB 111 And storing rule words or phrases in natural language extracted from the documents in the rule sentence DB 113. [

In step S22, the rule set conversion system 10 for the BIM model checker refers to the classification reference table 114 for the nouns, verbs or adjectives extracted from the rule sentences or phrases stored in the rule sentence DB Classes defined from reclassified nouns after reclassification and attributes derived from verbs or adjectives extracted to describe the classes can be stored in the class and attribute DB 117. [

Then, in step S23, the rule set conversion system 10 for a BIM model checker registers the natural language rule sentences stored in the rule sentence DB 113 and the classes and attributes stored in the class DB and attribute DB 117 And stores the constructed ontology in the ontology DB 122 by receiving an entry and a hierarchical structure of classes defined by reference and attributes of each class.

In step S24, the rule set conversion system 10 for a BIM model checker receives the ontology rule definitions defined by referring to the natural language rule sentences stored in the rule sentence DB 113, receives the ontology rule definitions defined in the ontology DB 122, The ontology-based ruleset constructed by adding the ontology rule definitions to the ontology DB 122 can be stored.

Next, in step S25, the rule set conversion system 10 for the BIM model checker includes a mapping table 131 for converting the name of the class or property of the ontology-based rule set into a variable or a function name used in the BIM model checker, The name of the class or attribute in each rule definition phrase extracted from the ontology-based rule set read from the ontology DB 122 is converted into a variable or function name used in the BIM model checker.

In step S26, the rule definition syntax of the ontology-based rule set whose names are converted is translated into a rule determination code written in at least one target programming language for the BIM model checker.

And stores the rule sets for the BIM model checker constructed as the rule determination syntaxes of at least one translated programming language in the rule set DB 134 for the BIM model checker.

More specifically, a logic operation expression equivalent to a logical operation expression of an ontology rule definition syntax is generated based on a translated name, a library of a target programming language, and a grammar, thereby generating a logical expression expression code that returns an operation value. The rule determination code in the target programming language can be created based on the expression code.

Furthermore, a rule determination code written in the target programming language can be generated by using the generated logic equation code as a body, and adding a header and a footer given for the BIM model checker.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be understood that variations and specific embodiments which may occur to those skilled in the art are included within the scope of the present invention.

Further, the apparatus according to the present invention can be implemented as a computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the recording medium include ROM, RAM, optical disk, magnetic tape, floppy disk, hard disk, nonvolatile memory and the like. The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

10 BIM Model Checker Rule Set Conversion System
11 Document Analysis Department
111 Document database (DB)
112 sentence extracting unit
113 Rule Sentence DB
114 term extraction section
115 Classification table
116 Class and Attribute Definition Section
117 Classes and attributes DB
12 Ontology based rule set construction
121 ontology editorial department
122 ontology DB
13 rule set conversion unit
131 Mapping Table
132 mapping unit
133 Rules Syntax Translator
134 BIM model checker rule set DB

Claims (10)

Refers to a mapping table for converting the name of a class or property of an ontology-based rule set into a variable or a function name used in the BIM model checker and specifies the name of the class or attribute in each rule definition syntax extracted from the ontology- Into a variable or function name used in the BIM model checker;
Translating the rule definition syntax of the ontology-based ruleset whose names are converted into a rule determination code written in at least one target programming language for the BIM model checker; And
And storing a rule set for the BIM model checker constructed as the rule determination syntax of at least one translated programming language in the rule set DB for the BIM model checker,
The ontology-based rule set includes classes that classify nouns, which are extracted from rule statements or phrases, which are to be included in rule sets into a rule set, according to a consistent classification rule, and rules And ontology rule definitions defined by referring to properties or rule statements or phrases for describing the classes derived from the verbs or adjectives corresponding to the ontology. A rule set conversion method for rule set BIM model checker. The method according to claim 1, wherein translating into the rule-
Generates a logical expression expression code that returns an operation value by performing a logical operation equivalent to a logical expression expression of the ontology rule definition syntax on the basis of the converted name and the library and grammar of the target programming language, And generating a rule judgment code in a target programming language based on the rules of the rules of the ontology-based ruleset. The method according to claim 2, wherein translating into the rule-
Generating a rule determination code written in the target programming language by adding the header and footer given for the BIM model checker to the generated logical expression code as a body A method of transforming a rule set for a BIM model checker of an ontology - based rule set for reviewing the quality of the BIM. The method according to claim 1,
Storing the rule phrases or phrases in a natural language extracted from documents read from a document DB in a rule sentence DB;
The nouns to be the subject of the rule to be included in the rule set extracted from the rule sentences or phrases stored in the rule sentence database and the verbs or adjectives corresponding to the rule contents are reclassified with reference to the classification reference table Storing classes defined from nouns and attributes derived from verbs or adjectives extracted to describe the classes in a class and attribute DB;
Based on rule statements stored in the rule statement DB, an entry and hierarchical structure of classes defined by referring to the classes and attributes stored in the class DB and the attribute DB, and an ontology constructed by receiving attributes of each class, ; And
Storing the ontology-based ruleset constructed by adding the ontology rule definitions to the ontology stored in the ontology DB, receiving the ontology rule definitions defined by referring to the natural language rule sentences stored in the rule sentence DB, and storing the ontology rule set in the ontology DB A rule set conversion method for a BIM model checker of an ontology-based rule set for reviewing a BIM quality. A computer-readable recording medium storing a computer program for implementing a rule set conversion method for a BIM model checker of an ontology-based ruleset for reviewing a BIM quality according to any one of claims 1 to 4 in a computer. Refers to a mapping table for converting the name of a class or property of an ontology-based rule set into a variable or a function name used in the BIM model checker and specifies the name of the class or attribute in each rule definition syntax extracted from the ontology- A mapping unit for converting the parameter into a variable or function name used in the BIM model checker;
A rule syntax translator for translating a rule definition syntax of an ontology-based ruleset whose names are converted into a rule determination code written in at least one target programming language for a BIM model checker; And
And a rule set DB for a BIM model checker for storing a rule set for a BIM model checker constructed as rule determination statements of at least one translated programming language,
The ontology-based rule set includes classes that are classified according to a consistent classification standard, which are nouns that are extracted from rule statements or phrases and are to be the subject of rules to be included in rule sets, And the ontology rule definitions defined by referring to attributes and rule statements or phrases for describing the classes derived from the verbs or adjectives. The BIM model checker for the ontology-based ruleset for BIM quality review Ruleset conversion system. 7. The apparatus of claim 6,
Generates a logical expression expression code that returns an operation value by performing a logical operation equivalent to a logical expression expression of the ontology rule definition syntax on the basis of the converted name and the library and grammar of the target programming language, Based rule set in the target programming language based on the rule-based decision rule of the BIM model checker. 8. The apparatus of claim 7,
Based rule set for the BIM quality review, wherein the generated rule expression code is a body, and a given header and footer are added to the BIM model checker to generate a rule determination code written in the target programming language. Rule set conversion system for BIM model checker. The method of claim 6,
The rule sentences or phrases in natural language extracted from the documents read from the document DB,
The nouns to be the subject of the rule to be included in the rule set extracted from the rule sentences or phrases stored in the rule sentence database and the verbs or adjectives corresponding to the rule contents are reclassified with reference to the classification reference table Classes and attributes DB for storing classes defined from nouns, attributes derived from extracted verbs or adjectives to describe classes; And
Based on rule statements stored in the rule statement DB, an entry and hierarchical structure of classes defined by referring to the classes and attributes stored in the class DB and the attribute DB, and an ontology constructed by receiving attributes of each class, Based on rule rules defined by referring to the natural language based rule sentences stored in the rule sentence DB and adding the ontology rule definitions to the ontology stored in the ontology DB to store the ontology based ruleset in the ontology DB A rule set conversion system for a BIM model checker of an ontology-based rule set for reviewing a BIM quality. A computer-readable recording medium storing a computer program for operating a computer as a rule set conversion system for a BIM model checker of an ontology-based ruleset for reviewing a BIM quality according to any one of claims 6 to 9.

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