KR20170081880A

KR20170081880A - Method and apparatus for creating safety management information in shipbuilding

Info

Publication number: KR20170081880A
Application number: KR1020160000864A
Authority: KR
Inventors: 최유희
Original assignee: 한국전자통신연구원
Priority date: 2016-01-05
Filing date: 2016-01-05
Publication date: 2017-07-13

Abstract

The present invention relates to a safety management system for a ship construction site that automatically generates safety management information specific to a ship construction site to provide safety management services specific to each operation, The present invention relates to a system and method for automatically generating management information, comprising the steps of: storing a plurality of pieces of risk information for each job for ship building; If the user inputs arbitrary performance task information, a plurality of risk factors for the inputted performance task information are sequentially extracted from the stored risk factor information according to a predetermined priority order, and then the sequentially extracted risk factor information Extracting safety management information for a disaster prevention countermeasure from a predetermined safety management performance information file; And performing a safety management service according to the extracted safety management information for the performance task.

Description

TECHNICAL FIELD The present invention relates to a system and method for automatically generating safety management information on a ship building site,

The present invention relates to a system and method for automatically generating safety management information on a shipbuilding site, and more particularly, it relates to a system and method for automatically generating safety management information for a shipbuilding site, The present invention relates to a system and a method for automatically generating safety management information on a shipbuilding site.

In general, shipbuilding is a shipbuilding and repair business, and is classified as one of the most dangerous industries in the world.

As a result, technology development for shipbuilding methods, shipbuilding facilities and equipment has been continuously carried out. However, despite these technological developments, most of the work in today's shipyards requires labor-intensive, specialized and highly skilled proficiency .

Due to these characteristics, there is a need for a method that can accurately know the shipbuilding process and risk characteristics and cope effectively.

Even if the shipbuilding process is different from that of the shipbuilding process, the drying process procedures and work processes are similar. Accordingly, the risk information related to the work in the shipbuilding industry can be commonly applied.

In this respect, there is a need for a method for effectively constructing a safety management system by commonly utilizing general safety management information in the shipbuilding process, without constructing a separate safety management system for each shipbuilding individually.

In addition, the safety management in the work is not completed, and if the risk factors that can not occur in the finished work are dry, it can be a risk factor according to the progress of the work.

In addition, it is necessary to recognize dangerous areas and dangerous areas before work, but disaster occurs frequently because arbitrary risk information that may occur depending on the workplace situation is not properly transmitted to workers.

Therefore, there is a need for a method of supporting appropriate disaster prevention measures by grasping the risk factors according to the workplace environment and the state of the object to be performed in the work process at the time of work.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method and system for analyzing risk factors, And a method and system for automatically generating safety management information on a ship building site to support safety management services corresponding to each role subject.

According to an aspect of the present invention, there is provided a system for automatically generating safety management information on a ship building site, comprising: a risk factor information management unit for storing and managing a plurality of risk factor information for each operation for ship building; When the user inputs arbitrary performance task information, a plurality of risk factors for the inputted performance task information are respectively extracted from the risk factor information management unit, and the safety management information for each extracted risk factor information is subjected to predetermined safety management Extracting the safety management information from the information file, collecting and transmitting the extracted safety management performance information, and transmitting the extracted safety management performance information; And a safety management service execution server that performs a safety management service according to the safety management performance information on each of the risk factors for the performance task collected by the task occurrence probability analysis unit.

The risk factor information management unit includes a task hierarchy classification information management unit for storing and managing information classified into hierarchical structures of the relationships between the tasks in the ship building process and the detailed tasks of each task; A work area risk factor analysis unit for storing and managing spatial risk factor information on the current work process of the work area; An external environmental information collecting unit for collecting and storing external environment information such as weather information of the work area; And a work status information management unit for storing and managing work performance status information in an adjacent area of each zone for a job.

The work area risk factor analysis unit stores and manages the risk factors in the current process of the area where the target work is performed as a predicted three-dimensional model.

In the job disaster probability analyzer, the predetermined SA management information file is an SA management information XML file provided from the outside.

The safety management performance information XML file includes list information (<smactionlist> element) of a safety management instruction item (<smactionitem> element) corresponding to each task, and each safety management instruction item includes a unique identifier element > element, the <person> element of the job for defining the work item for each role subject, the specific action details to be performed (the <action> element), the information to be delivered to the subject (< message> element).

The form of the <message> element to be transmitted to the work subject includes at least one of the <refinfo> element including the text message information, the <text> element, the picture, do.

The job disaster probability analysis unit sequentially extracts, from the risk factor information management unit, the risk factor information according to the job information inputted from the user according to the preset priority information.

The job disaster occurrence probability analyzing unit calculates a job risk probability based on whether or not a high risk task group for the performance task inputted by the user, a dangerous area of the job target area, a presence of a central risk factor per job, The safety management performance information for each risk factor according to the analysis result is extracted from the safety management performance information XML file, To the management service execution server.

Meanwhile, a method for automatically generating safety management information of a ship building site according to the present invention includes: storing a plurality of risk factor information for each operation for ship building; If the user inputs arbitrary performance task information, a plurality of risk factors for the inputted performance task information are sequentially extracted from the stored risk factor information according to a predetermined priority order, and then the sequentially extracted risk factor information Extracting safety management information for a disaster prevention countermeasure from a predetermined safety management performance information file; And performing a safety management service according to the safety management information for the extracted execution task.

Wherein the extracting step comprises the steps of: extracting safety management information for a disaster prevention measure according to a high-risk work from a predetermined SA management performance information file when the performed operation inputted by the user belongs to a high-risk group; After the first step, if there is a spatial risk factor in the current work process of the corresponding area for the performance task inputted by the user, the safety management information for the disaster prevention countermeasure corresponding to the risk factor is set to the predetermined safety management A second step of extracting from the information file; After the second step, when there is a risk factor according to the external environmental condition such as weather information of the performance target area input from the user, the safety management information for the disaster prevention countermeasure corresponding to the risk factor is set to the predetermined safety management A third step of extracting from the performance information file; And a third step of, when there is a risk factor from the current state of the work performed in the adjacent area of the zone for the performance task inputted by the user, the safety management information for the disaster prevention countermeasure corresponding to the risk factor And a fourth step of extracting from the set SA management performance information file.

The second step determines whether there is a spatial risk factor in the current work process of the area where the target work is performed using the predefined predicted three-dimensional model.

The predetermined safety management performance information file may be an externally provided safety management performance information XML file.

In addition, the method for automatically generating safety management information of a ship building site according to the present invention is a method for automatically generating safety management information for a ship building site, Whether or not there is a risk factor according to the external environmental condition such as existence of a spatial risk factor in the current work process, possibility of occurrence of a disaster according to the important risk factor according to the job classification, weather information of the work area, Analyzing whether or not a risk factor exists from the work performance status information in the adjacent area of each zone; Extracting safety management directive information for disaster prevention measures for each of the risk factors from the predetermined SA management performance information file according to the analysis result; Collecting and transmitting safety management directive information for disaster prevention measures for the extracted risk factors, respectively; And performing a safety management service to the corresponding operator using the collected safety management directive information.

In the analysis step, the existence of a spatial risk factor in the current work process of the work area is determined using the predefined predicted three-dimensional model.

In the analyzing step, the presence or absence of each of the risk factors is sequentially analyzed according to a predetermined priority.

The method and system for automatically generating job-specific safety management information on the ship building site according to the present invention can easily provide safety management information specific to the job situation by supporting the automatic generation of job-specific safety management information on the ship building site In addition, it is possible to easily change the process, such as addition and deletion of safety management information due to the addition and change of the risk factors at the dry site through the XML-based safety management information management.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a system for automatically generating safety management information on a ship drying site according to an embodiment of the present invention; FIG.
FIG. 2 is a table showing an example of a work risk identification priority determination value in the automatic generation of safety management information on a ship drying site according to the present invention. FIG.
3 is a diagram showing a configuration example of a safety management performance information XML file defined for application to the present invention;
4 is a flowchart showing an operation flow of a method for automatically generating safety management information on a ship drying site according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. And the present invention is defined by the description of the claims. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that " comprises, " or "comprising," as used herein, means the presence or absence of one or more other components, steps, operations, and / Do not exclude the addition.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a system and method for automatically generating safety management information on a ship drying site according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram of a system for automatically generating safety management information on a ship-building site according to an embodiment of the present invention. FIG. 2 is a flowchart illustrating a method for automatically generating safety management information on a ship- FIG. 3 is a table showing an example of the configuration of a safety management performance information XML file defined for application to the present invention.

1, the system for automatically generating safety management information on a ship building site according to the present invention includes a task hierarchy classification information manager 100, a work area prediction model risk factor analyzer 110, An information collector 120, a zone status information manager 130, a job disaster probability analyzer 140, and a safety management service execution server 150.

The operation hierarchical structure classification information manager 100 manages hierarchical structure classification information between each operation of the ship drying process and classifies the work in the ship drying process and classifies the relation between the detailed work of each operation into a hierarchical structure And provides the job layer classification information at the request of the job disaster occurrence probability analyzer 140.

The work area prediction model risk factor analyzer 110 extracts spatial risk information on the current work process of the work area and extracts risk factors of the present process from the predicted three-dimensional model of the area where the work to be performed is performed And provides the risk factor information of the extracted work area at the request of the job disaster probability analyzer 140.

The task external environment information collector 120 collects external environmental information such as weather information of the work area, collects external environment information of the work area such as real-time weather status information of the work area, And provides the information according to the request of the possibility analyzer 140.

The job status information management unit 130 manages the job status information in the adjacent area of each zone for the job, and manages the job currently performed in each zone and the risk information according to the job, And provides information on the neighboring area operation status at the request of the disaster occurrence probability analyzer 140.

The task disaster occurrence probability analyzer 140 analyzes the task hierarchy classification information manager 100, the work area prediction model risk factor analyzer 110, the task external environment information collector 120, The task hierarchy classification information, the risk factor information of the work zone, the weather information of the work zone, and the status information of the adjacent zone are respectively extracted from each of the job status information managers 130 by zone.

Then, the job disaster probability analyzer 140 identifies the risk factors for the performance tasks input by the user from the extracted information, and compares the safety management instructions according to the respective risk factors with the safety management performance information Extracted from the XML file, generates safety management information specific to the job, and provides it to the safety management service execution server 150.

That is, the job disaster occurrence probability analyzer 140 extracts the hierarchy classification information about the performance task input by the user from the job hierarchy classification information manager 100, and, based on the hierarchy classification information about the extracted input performing job, Is a high-risk work group.

Then, the job disaster occurrence probability analyzer 140 extracts the risk factor information of the work zone for the performance job inputted by the user from the job zone prediction model risk factor analyzer 110, Of the risk factors.

In addition, the job disaster probability analyzer 140 extracts the current weather condition and the environmental condition information of the execution task input by the user from the operation external environment information collector 120, and extracts the current weather condition and the environmental condition information Accordingly, it is determined whether there is a risk factor at the time when the operation inputted by the user is performed.

Then, the job disaster probability analyzer 140 extracts the neighboring zone job status information for the performance job input by the user from the job status information manager 130 for each zone, It is determined whether there is a risk factor affecting the current operation in the work performed in the adjacent area of the work area.

On the other hand, the job disaster occurrence probability analyzer 140 performs safety management from the safety management performance information XML file defined as formalized XML provided from the outside according to the identified risk factors, Extracts and combines the information, and transmits it to the safety management service execution server 150.

Here, in order to determine the risk factors for each job in the job disaster occurrence probability analyzer 140, the risk assessment criteria and the importance information are set in advance as shown in the table of FIG. That is, as shown in FIG. 2, the conditions for calculating the risk are the conditions such as the high-risk work group, the dangerous area of the work area, the risk due to work, the risk due to external conditions such as weather, (Priority) for each set condition is set as a percentage (%), and the risk factor is analyzed according to the priority for the job inputted by the user.

The safety management performance information XML file defined by the formalized XML provided from the outside can be defined as shown in FIG. That is, the safety management performance information XML file includes list information (<smactionlist> element) of the safety management instruction item (<smactionitem> element) corresponding to each operation.

Each of the above safety management guidelines requires a unique identifier (<smacode> element), and the task to be performed depends on the role of the person who carries out the guidance. You need to define a work item. To this end, a <person> element element of the action, an action element (action element), and information (<message> element) to be delivered to the subject are included in the <personaction> element item unit. The <message> element to be transmitted may be a text message information element or a file information element including a picture or an image.

On the other hand, the safety management service execution server 150 provides the safety management information according to the roles of the persons concerned with the job based on the job-specific safety management performance information transmitted from the job disaster probability analyzer 140, And to perform safety management service that is suitable for the management subject.

A detailed operation of the system for automatically generating job-specific safety management information of the ship building site according to the present invention will now be described.

Prior to the description of the operation, there are various kinds of risk factors in the ship building site in relation to the risk factor identification procedure. Therefore, it is important to determine what type of risk factors are priorities for each type and to estimate the likelihood of occurrence. It is possible to adjust the ranking according to the accident cases and the situation of the workplace.

First, a priority for estimating the probability of occurrence of a risk factor for an execution task input by a user is defined as shown in FIG. 2. When task task information is input from a user to perform a task-specific safety management service, The occurrence possibility analyzer 140 extracts the operation layer classification information for the input job from the operation layer structure classification information manager 100 according to the priority defined as shown in FIG. 2, and uses the extracted operation layer classification information And judges whether or not the execution task input from the user corresponds to the high-risk task group. Here, high-risk work groups may include high-altitude work, painting and welding, and gas handling work.

As a result of the determination, if it is determined that the execution task input from the user is a high-risk task group, the basic risk prevention countermeasure information according to the high-risk task is extracted from the safety management information XML file provided from the outside as shown in FIG.

When the task input from the user does not belong to the high-risk task group or the basic disaster prevention measure information according to the high-risk task is extracted as described above, The risk factor information of the job target area, which is a criterion for determining the risk of the priority, is extracted from the job zone prediction model risk factor analyzer 120, and it is determined whether or not the corresponding job has a risk factor in the job target area. For example, check whether there are physical hazards such as openings and obstacles in the work area.

As a result of the determination, if it is determined that there is a risk factor in the work area for the performance task input from the user, the job disaster probability analyzer 140 extracts, from the externally provided safety management information XML file, Preventive measures information is extracted.

If a risk factor does not exist in the work area of the work performed by the user or the risk countermeasure information on the risk factor in the target area is extracted, It calculates the risk by the key risk factors according to the task classification which is the criterion of the ranking risk. That is, it is confirmed whether or not the risk factor corresponds to the key risk factor according to the similar job category for the detail work performed by the user. The major risk factors include the risk of material / material, the risk of the equipment used, the risk of dependence on the external environment such as weather, the risk due to zone characteristics, the risk of the work performing method, , The key risk factors for each task can be defined according to the classification of the task.

If there is a factor corresponding to the key risk factor according to each job classification, the job disaster occurrence probability analyzer 140 extracts the prevention risk prevention information for each key risk factor according to the calculated job classification from the safety management information XML file .

In the case where the risk prevention countermeasure information for each critical risk factor according to the calculated job classification is extracted or there is no factor corresponding to the central risk factor according to each job classification, A risk factor according to an external condition such as a weather condition, which is a criterion for calculating a risk of the next priority, from the external environment information collector 120 as in the table shown in FIG. It is judged whether or not there is a risk factor according to external conditions such as the weather in the work area.

As a result of the determination, when there is a risk factor according to an external condition such as a weather in the work area, the job disaster occurrence probability analyzer 140 extracts disaster prevention countermeasure information about a risk factor according to external conditions from the safety management information XML file do. In other words, due to the nature of the shipbuilding workplace, there are many outdoor work and many steel structures, so it is influenced by external conditions such as weather. Ensure that there are risk factors influenced by external conditions such as weather conditions in the work so that safety management such as job warning and work stop can be performed.

If the risk factor according to the external condition such as the weather of the work area does not exist or the risk countermeasure information on the risk factor according to the external condition is extracted, The neighboring zone operation status information is extracted from the zone-by-zone operation status information manager 130 in order to determine the risk of the next priority (adjacent zone) operation as in the table.

Then, the job disaster probability analyzer 140 determines whether there is an ongoing job in the adjacent area using the extracted adjacent area job status information. That is, as the shipbuilding operation progresses in such a manner that the large blocks are assembled and dried, the operations can be performed in the adjacent areas in parallel with each other, thereby affecting the operation of the adjacent areas, Identify the risk factors caused by the work of.

If there is a risk factor that may affect the operation of the adjacent area, the job disaster possibility analyzer 140 transmits information on the prevention of disasters caused by the adjacent area operation to the safety management information XML file .

In this way, in the job disaster occurrence probability analyzer 140, the disaster prevention countermeasure information, that is, the basic disaster prevention countermeasure information based on the high risk work, the disaster prevention countermeasure information about the risk factors of the work area, , Accident prevention measures information according to the important risk factors according to the work classification, information on the prevention measures against the risk factors according to the external conditions, and information on the preventive measures against the risk factors according to the adjacent area work are extracted from the safety management information XML file , And the job disaster occurrence probability analyzer 140 collects the extracted information to generate task-specific safety management directive information, and then transmits the generated job-specific safety management directive information to the safety management service execution server 150.

Accordingly, the safety management service execution server 150 performs the security management service for each work subject according to the job-specific safety management directive information transmitted from the job disaster occurrence probability analyzer 140. [

Hereinafter, a method for automatically generating job-specific safety management information of a ship building site according to the present invention, corresponding to the operation of the automatic management information generating system for ship building site according to the present invention, will be described step by step with reference to FIG. Let's explain.

FIG. 5 is a flowchart illustrating a method for automatically generating job-specific safety management information for a ship drying site according to the present invention.

As shown in FIG. 5, first, a priority for estimating the probability of occurrence of a risk factor for a performance task input by a user is defined as shown in FIG.

When the target task information is inputted from the user in order to perform the safety management service specific to the task (S401), it is determined whether the task for the inputted task corresponds to the high risk task group according to the priority defined as shown in FIG. (S402). Here, high-risk work groups may include high-altitude work, painting and welding, and gas handling work.

As a result of the determination, if it is determined that the execution task input from the user is a high-risk task group, the basic risk prevention measure information according to the high-risk task is extracted from the safety management information XML file provided from the outside as shown in FIG. 3 (S403) .

If the execution task input by the user does not belong to the high-risk task group in step S402 or the basic disaster prevention measure information according to the high-risk task is extracted in step S403, as shown in the table of FIG. 2, (S404). The risk factor information of the target area, which is a criterion for calculating the risk, is extracted from the risk factor analysis database of the work area prediction model and it is determined whether the risk factor of the target area exists. For example, check whether there are physical hazards such as openings and obstacles in the work area.

As a result of the determination, if it is determined that a risk factor exists in the target area for the performance task input from the user, the risk prevention information for the risk factor of the target area is extracted from the safety management information XML file at step S405.

As a result of the determination in step S404, if there is no risk factor in the work area of the task performed by the user, or if the disaster prevention countermeasure information for the risk factor in the target area is extracted in step S405, The risk of the key risk factors according to the job classification, which is the criteria for calculating the risk of ranking, is calculated (S406). That is, for the detail work performed by the user, check whether there is a risk factor that corresponds to the key risk factor according to the job category having a similar risk factor. The major risk factors include the risk of material / material, the risk of the equipment used, the risk of dependence on the external environment such as weather, the risk due to zone characteristics, the risk of the work performing method, , The key risk factors for each task can be defined according to the classification of the task.

If there is a factor corresponding to the key risk factor according to each job classification, the risk prevention information for each key risk factor according to the calculated job classification is extracted from the safety management information XML file (S407).

[0051] If it is determined in step S407 that the critical risk countermeasure prevention information for each critical risk factor is extracted in step S407, or if no factor corresponding to the central risk factor according to each job classification exists in step S406, It is determined whether there is a risk factor according to an external condition such as a weather condition, which is a risk assessment criterion of the next priority (S408).

As a result of the determination, if there is a risk factor according to an external condition such as a weather in a work area, the risk prevention information on the risk factor according to the external condition is extracted from the safety management information XML file (S409). In other words, due to the nature of the shipbuilding workplace, there are many outdoor work and many steel structures, so it is influenced by external conditions such as weather. Ensure that there are risk factors influenced by external conditions such as weather conditions in the work so that safety management such as job warning and work stop can be performed.

As a result of the determination in step S408, if there is no risk factor according to the external condition such as the weather of the operation target area or if the disaster prevention countermeasure information on the risk factor according to the external condition is extracted through step S409, The neighboring zone operation status information is checked to determine the risk for the adjacent area (zone) operation of the next priority as in the table shown in FIG. 6A, and the neighboring zone operation status information is used to determine whether there is an ongoing operation in the adjacent zone (S410). That is, as the shipbuilding operation progresses in such a manner that the large blocks are assembled and dried, the operations can be performed in the adjacent areas in parallel with each other, thereby affecting the operation of the adjacent areas, Identify the risk factors caused by the work of.

If there is a risk factor that may affect the operation due to the nature of the operation of the adjacent area, information on preventive measures against the risk caused by the operation of the adjacent area is extracted from the safety management information XML file (S411).

As described above, according to the priorities defined in S403, S405, S407, S409, and S411, the disaster prevention countermeasure information, that is, information on prevention measures based on high risk work, Information on preventive measures, information on preventive measures against serious risk factors according to work classification, information on preventive measures against risk factors according to external conditions, and information on preventive measures against risk factors according to work on adjacent areas, And extracts the extracted information to generate task-specific safety management guidance information (S412).

Then, the generated task-specific safety management instruction information is transmitted to the safety management service execution server (S413), and the security management service for each task person is performed in the server.

There are various kinds of risk factors in the ship building site in relation to the risk factor confirmation procedure for the input nucleus work as in the steps S402, S404, S406, S408, and S410. Therefore, It should be understood that priorities may be adjusted differently depending on the circumstances of the accident and the workplace in each workplace.

Although the system and method for automatically generating safety management information on the ship building site according to the present invention have been described with reference to the embodiments, the scope of the present invention is not limited to the specific embodiments, And various alternatives, modifications, and changes may be made within the scope of the invention.

Therefore, the embodiments described in the present invention and the accompanying drawings are intended to illustrate rather than limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and accompanying drawings . The scope of protection of the present invention should be construed according to the claims, and all technical ideas within the scope of equivalents should be interpreted as being included in the scope of the present invention.

100: Operation hierarchy classification information analyzer
110: Work Area Prediction Model Risk Factor Analyzer
120: Work environment information collector
130: Operation status information manager
140: Occupational Accident Analyzer
150: Security management service execution server

Claims

A risk factor information management unit for storing and managing a plurality of risk factor information for each job for ship building;
When the user inputs arbitrary performance task information, a plurality of risk factors for the inputted performance task information are respectively extracted from the risk factor information management unit, and the safety management information for each extracted risk factor information is subjected to predetermined safety management Extracting the safety management information from the information file, collecting and transmitting the extracted safety management performance information, and transmitting the extracted safety management performance information; And
A safety management service execution server that performs a safety management service according to safety management performance information on each of the risk factors for the performance task collected by the task occurrence probability analysis unit;
A system for automatic creation of safety management information on shipbuilding sites.

The method according to claim 1,
The risk factor information management unit,
A work hierarchy classification information management unit for storing and managing information classified into hierarchical structures of the relationships between the works in the ship building process and the detailed work of each work;
A work area risk factor analysis unit for storing and managing spatial risk factor information on the current work process of the work area;
An external environmental information collecting unit for collecting and storing external environment information such as weather information of the work area; And
A system for automatically generating safety management information on a shipbuilding site, which includes a work situation information management unit for storing and managing work performance information in a neighboring area of each zone for work.

3. The method of claim 2,
Wherein the work area risk factor analysis unit stores and manages the risk factors in the current process of the area where the target work is performed as a predicted three-dimensional model.

3. The method of claim 2,
Wherein the pre-established safety management performance information file is an XML file of safety management performance information provided from the outside in the operational risk probability analyzer.

5. The method of claim 4,
The safety management performance information XML file includes list information (<smactionlist> element) of a safety management instruction item (<smactionitem> element) corresponding to each task, and each safety management instruction item includes a unique identifier element > element, the <person> element of the job for defining the work item for each role subject, the specific action details to be performed (the <action> element), the information to be delivered to the subject (<message> element), which is a safety management information of the ship building site.

6. The method of claim 5,
The form of the <message> element to be transmitted to the work subject includes at least one of the <refinfo> element including the text message information, the <text> element, the picture, Automatic Creation of Safety Management Information on Ship Building Site.

5. The method of claim 4,
Wherein the job disaster probability analysis unit sequentially extracts, from the risk factor information management unit, the risk factor information according to the job information input from the user according to the predetermined priority information.

8. The method of claim 7,
The job disaster occurrence probability analyzing unit calculates a job risk probability based on whether or not a high risk task group for the performance task inputted by the user, a dangerous area of the job target area, a presence of a central risk factor per job, The safety management performance information for each risk factor according to the analysis result is extracted from the safety management performance information XML file, A system for automatically generating safety management information on a shipbuilding site, which is transmitted to a management service execution server.

Storing a plurality of pieces of risk information for each job for ship building;
If the user inputs arbitrary performance task information, a plurality of risk factors for the inputted performance task information are sequentially extracted from the stored risk factor information according to a predetermined priority order, and then the sequentially extracted risk factor information Extracting safety management information for a disaster prevention countermeasure from a predetermined safety management performance information file; And
Performing a safety management service according to safety management information on the extracted execution task;
The method comprising the steps of:

10. The method of claim 9,
Wherein the extracting comprises:
A first step of extracting safety management information for a disaster prevention measure according to a high-risk work, from a predetermined safety management performance information file, when the user's input operation is a high-risk group;
After the first step, if there is a spatial risk factor in the current work process of the corresponding area for the performance task inputted by the user, the safety management information for the disaster prevention countermeasure corresponding to the risk factor is set to the predetermined safety management A second step of extracting from the information file;
After the second step, when there is a risk factor according to the external environmental condition such as weather information of the performance target area input from the user, the safety management information for the disaster prevention countermeasure corresponding to the risk factor is set to the predetermined safety management A third step of extracting from the performance information file; And
After the third step, if there is a risk factor from the work performance status information in the adjacent area for the performance task input from the user, the safety management information for the disaster prevention countermeasure corresponding to the risk factor is set And a fourth step of extracting the safety management information from the safety management performance information file.

11. The method of claim 10,
Wherein the second step is to determine the existence of a spatial risk factor in the current working process of the area where the target work is performed by using the predefined predicted three-dimensional model.

11. The method of claim 10,
Wherein the predetermined safety management performance information file is an externally provided safety management performance information XML file.

13. The method of claim 12,
The safety management performance information XML file includes list information (<smactionlist> element) of a safety management instruction item (<smactionitem> element) corresponding to each task, and each safety management instruction item includes a unique identifier element > element, the <person> element of the job for defining the work item for each role subject, the specific action details to be performed (the <action> element), the information to be delivered to the subject (< message > element). < / RTI >

14. The method of claim 13,
The form of the <message> element to be transmitted to the work subject includes at least one of the <refinfo> element including the text message information, the <text> element, the picture, A method of automatically generating safety management information on a ship building site.

When the execution task information is inputted from the user, it is determined whether the task inputted from the user belongs to a high risk group, whether it exists in a spatial risk factor in the current work process of the corresponding task performed by the user, Whether or not there is a risk factor according to external environmental conditions such as the possibility of occurrence of a disaster according to each factor and the weather information of the work area to be performed or whether there is a risk factor from the current state information of each zone for the above- &Lt; / RTI >
Extracting safety management directive information for disaster prevention measures for each of the risk factors from the predetermined SA management performance information file according to the analysis result;
Collecting and transmitting safety management directive information for disaster prevention measures for the extracted risk factors, respectively; And
And performing a safety management service to the operator using the collected safety management directive information.

16. The method of claim 15,
Wherein the presence of a spatial risk factor in the current working process of the work area is determined by the predefined predicted three-dimensional model in the analyzing step.

16. The method of claim 15,
Wherein the predetermined safety management performance information file is an externally provided safety management performance information XML file.

18. The method of claim 17,
The safety management performance information XML file includes list information (<smactionlist> element) of a safety management instruction item (<smactionitem> element) corresponding to each task, and each safety management instruction item includes a unique identifier element > element, the <person> element of the job for defining the work item for each role subject, the specific action details to be performed (the <action> element), the information to be delivered to the subject (< message > element). < / RTI >

19. The method of claim 18,
The form of the <message> element to be transmitted to the work subject includes at least one of the <refinfo> element including the text message information, the <text> element, the picture, A method of automatically generating safety management information on a ship building site.

16. The method of claim 15,
Wherein the analyzing step sequentially analyzes the presence or absence of each of the risk factors according to predetermined priorities.