KR20180117036A - Method for selecting appropriate sensor location for analyzing the site information in the damaged area and the method for calculating damage by spreading risk - Google Patents

Abstract

The present invention relates to a method for selecting an appropriate sensor location for analyzing site information in a damaged area and calculating damage by spreading a risk. The method for selecting an appropriate sensor location for analyzing site information in a damaged area systematically investigates and analyzes site information from spreading a risk in an industrial complex, acquires most reliable site information from the investigation and analysis to minimize damage by spreading the risk in the industrial complex, and comprises a site information visibility analysis step and an appropriate sensor location selection technique development step. The site information visibility analysis step analyzes visibility of site information, then determines a vulnerable area, derives CCTVs and required sensors, and derives the optimal location where CCTVs and sensors can be effectively operated when the risk spreads. The method for selecting an appropriate sensor location for analyzing site information in a damaged area and a method for acquiring site information using the same to provide a method for selecting an appropriate sensor location of a sensor for analyzing site information in a damaged area by spills and explosion of dangerous materials in an industrial complex, and a method for acquiring the most reliable site information using the same to analyze site information by frequent accidents such as spills and explosion of dangerous materials in real time and calculate damage to provide responses for reducing damage to resolve conventional problems.

Description

In this paper, we propose a method for selecting appropriate sensor location and analyzing damage information of damaged area.

The present invention relates to the selection of a suitable sensor location for the analysis of information on the site in a damaged area and a damage calculation method based on the risk spread, and more particularly, And to provide a countermeasure system for the occurrence of hazardous materials in the industrial complex. The method of selecting the appropriate sensor for analyzing the site information of the damaged area due to the leakage and explosion of the hazardous materials in the industrial complex, And a method for acquiring the on-site information.

Since humans have utilized chemical substances, more than 15 million chemical substances have been commercially used worldwide, and about 43,000 chemical substances have been distributed in the country. Therefore, thorough control of chemical substances is absolutely necessary, and through this, we must provide many benefits for the use of chemical substances of modern humanity. However, damage caused by accidents caused by natural weather and human carelessness, such as chemical leaks and explosions, is continuously increasing. Moreover, as the nation's new growth engine industries and technologies such as semiconductors, displays, and solar power have developed, the use of toxic and chemical substances has been continuously increasing, and exposure to chemical leaks and explosions has increased In fact. These chemical-related accidents occur almost evenly in carelessness, aging facilities, and transportation accidents. Recently, accidents such as leakage of chemical substances and gas due to various aged facilities installed at industrial sites or equipment failures and explosion thereof have been increasing rapidly, .

While this incident would not be a problem if it remained in a mere accident, the reality is causing serious problems in various sectors. For example, if we look at the economic and industrial sectors first, the amount of primary damage caused by gas leakage in Gumi Foshan in 2012 was 17.7 billion won, including the secondary damage such as human health and environmental ecology It can be said that the economic loss is increasing more and more. In the social sector, psychological risks to residents living near industrial complexes or chemical complexes after the leakage and explosion of various hazardous chemicals have increased considerably. As a result, the psychological stability in the lives of the residents is significantly lowered.

As such, chemical accidents are one of the serious problems that can have a devastating effect on business management, management and society in general because of the large scale of human, physical, mental and economic damage in a short time. As such, chemical accidents are most likely to be prevented in advance because they lead to mental, social, and economic damages, as well as major accidents that cause air pollution and human accidents. Therefore, the government has been revising the Hazardous Chemical Substance Management Law to prevent chemical accidents in order to secure national life safety and safe management of enterprises. However, in reality, there is no scientific and systematic means for the cause of chemical accidents and early response . In addition, comprehensive management of dangerous facilities handling hazardous materials and vulnerable disaster facilities, and detailed data on these facilities are not systematically managed, so it is necessary to identify a large number of personnel It is time-consuming, and there are many difficulties in eliminating these risk factors, or developing activities to prevent them from spreading and minimizing damage.

Therefore, although various studies have been made to solve such conventional problems, the problem is still not satisfactorily solved. For example, Korean Patent Registration No. 10-1627981 (Patent Document 1) , Which is an unspecified number of residents and living organisms due to the widening of the damage range and cumulative prolongation due to the spread of various human resources accidents such as hazardous chemical gas diffusion, crude oil leakage, plant explosion, Based on the Big Data, we continually check for human accidents, which have a profound impact on the environment, before the occurrence of accidents, to systematically establish the management of hazardous chemicals accompanied by high diffusion and high risk, You should be able to quickly respond to and respond to local residents. In addition to minimizing the risk of accidents, it is necessary for local people to recognize the area where the disaster occurred and to avoid the area where the disaster is spreading and to move to the safe area by the shortest route. Discloses a disaster response method based on object intelligence communication that minimizes human injury after a disaster has occurred. Korean Patent Laid-Open Publication No. 2016-0121706 (Patent Document 2) discloses a facility safety management system and method , A safety sensing device for safety management of industrial facilities based on inter-machine communication and object Internet, and a facility for monitoring the dangerous situation of industrial facilities through communication with safety sensing device based on big data base and geographical information A management server, and a manager of the facility safety management server The subscriber unit and the stay, discloses a facility safety management system and method which is characterized in that it comprises a data logger to organize the data collected and transmitted between the safety sensors and facility safety management server provides. However, the inventions disclosed in the above-mentioned patent documents do not provide any measures for analyzing on-site information of damage areas and methods for calculating damage in order to reduce damage caused by chemical-related accidents.

Therefore, the inventors of the present invention have found that, in industrial sites having chemical facilities, especially where large facilities such as national industrial complexes are located, the management system for the information on chemical substances distributed and the places where the chemical substances are handled is insufficient , And a sensor for analyzing the site information of the damaged area due to the leakage and the explosion of the dangerous substance in the industrial complex, considering both the first damage, which is the direct damage, and the second damage, And the method of calculating the damage due to the spread of the risk.

Patent Document 1: Korean Patent Registration No. 10-1627981 Patent Document 2: Korean Patent Laid-Open Publication No. 2016-0121706

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 system and a method for correcting damages caused by frequent occurrences of hazardous materials, This is a method to select the proper location of sensor for analyzing the site information of the damaged area due to the leakage and explosion of hazardous materials in the industrial complex, and to calculate the damage caused by the spread of the risk, and to obtain the most reliable site information .

The present invention may also be directed to accomplish these and other objects, which can be easily derived by those skilled in the art from the overall description of the present specification, in addition to the above-mentioned and obvious objects.

According to an aspect of the present invention,

As a method to acquire the most reliable site information to minimize the damage caused by the spread of the risk in the industrial complex,

The method comprising the steps of: analyzing field information visibility; And

And the development stage of sensor proper positioning technology,

Herein, in the step of analyzing the visual information of the spot information, the visible spot of the spot information is analyzed, the vulnerable area is identified, the CCTV and the required sensor are derived, and the optimal position where the CCTV and the sensor can be effectively operated is derived .

According to another aspect of the present invention, in the step of developing the sensor proper positioning technology, the visual field range of the CCTV is determined in order to specify the CCTV position optimization, and the CCTV model, the visible range, the CCTV angle of view, and the CCTV installation height And the optimal location is calculated by checking overlapping range of visible range with the surrounding CCTV by selecting the location first through CCTV PTZ simulation.

In order to analyze the on-site information of the damaged area according to the present invention, the method of determining the proper position of the sensor and the method of acquiring the on-site information using the method are as follows: It provides the most reliable method of obtaining the site information by using the selection method and the method of calculating the damage due to the spread of the risk, and analyzes real-time information according to the accidents such as the frequent occurrence of the dangerous substances leakage and the explosion, And a countermeasure for reducing damage due to risk spreading is provided, thereby solving the above conventional problems.

FIG. 1 is a view illustrating analysis of visibility of a test-bed site for selecting a sensor proper site for analyzing site information of a damaged area according to a preferred embodiment of the present invention,
FIG. 2 is a view showing a method of analyzing a visible region through a building and a high-precision type for selecting a sensor proper position for analyzing the damaged area information according to a preferred embodiment of the present invention,
FIG. 3 is a view showing a PTZ simulation for selecting a sensor proper position for analyzing the damage site information according to a preferred embodiment of the present invention,
FIG. 4 is a view showing an effective visible range between the CCTV effective visible distance radius and other CCTV models for the sensor proper position selection for analyzing the damaged area information according to the preferred embodiment of the present invention,
FIG. 5 is a diagram illustrating data used in the development of a damage scale calculation technique (population division) for selecting a sensor proper location for analysis of damage site information according to a preferred embodiment of the present invention,
6 is a diagram illustrating an analysis result file of a dangerous substance diffusion simulator for selecting a sensor proper position for analysis of damage site information according to a preferred embodiment of the present invention,
FIG. 7 is a raw data relating to a damaged building of a dangerous material diffusion simulator for selecting a sensor proper position for analysis of the damage site information according to a preferred embodiment of the present invention
FIG. 8 is a view showing a result of a diffusion simulator for selecting a sensor proper position for analyzing the damage site information according to a preferred embodiment of the present invention,
FIG. 9 is a diagram showing calculation of a diffusion simulator result for selecting a sensor proper position for analyzing the damage site information according to a preferred embodiment of the present invention. FIG.

Hereinafter, the present invention will be described in more detail by way of preferred embodiments with reference to the accompanying drawings. However, it is needless to say that the scope of the present invention is not limited thereto.

In this specification, the present embodiments are provided to provide a complete disclosure of the present invention and to fully disclose the scope of the invention to a person having ordinary skill in the art to which the present invention belongs. It is only defined by the claims. Thus, in some embodiments, well-known components, well known operations, and well-known techniques are not specifically described to avoid an undesirable interpretation of the present invention.

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 forms include plural forms unless otherwise specified in the specification. Also, components and acts referred to as " comprising (or comprising) " do not exclude the presence or addition of one or more other components and operations.

The sensor proper location method for analyzing the site information of the damaged area according to the preferred embodiment of the present invention systematically analyzes the site information from the risk diffusion in the industrial complex and thereby minimizes the damage caused by the spread of the risk in the industrial complex The method comprising the steps of: analyzing field information visibility rights; And the sensor proper positioning technology development step. In the step of analyzing the visual information of the on-site information, the visual information of the on-site information is analyzed, the vulnerable area is identified, the CCTV and necessary sensors are derived, And to derive an optimal position at which the sensor can be effectively operated.

According to another preferred embodiment of the present invention, the site information analysis according to the present invention selects an expected location of the CCTV based on the three-dimensional high precision type and the three-dimensional high-precision building in order to find the optimal location condition of the CCTV, , It is possible to simulate the expected position of CCTV through 3D spatial analysis technique, predicted viewing angle, and PTZ simulation.

In this step, when a specific area is a security area, there may be difficulties in data collection and information acquisition, and CCTV information can also be used to receive information in IP units on-line, Since the information is offline rather than on-line system, it may be unclear whether it is applied in development. In the present invention, CCTV and sensors are assumed to be online controllable with general assumption.

According to another preferred embodiment of the present invention, in the development of the sensor proper positioning technology according to the present invention, a problem has been solved in order to perform an analysis for proper positioning of the sensor. However, when the detection range of the sensor is too narrow, It is difficult to determine the proper position for CCTV as shown in Fig. 1

In the present invention, CCTV PTZ simulation including the CCTV model, visible range, CCTV angle of view, and CCTV installation height is obtained by grasping the visible range of the target site in the schematic position of the CCTV in order to specify the CCTV position optimization in the development stage of the sensor proper positioning technology The process of calculating the optimum position by checking the overlapped range of the distance between the CCTV and the neighboring CCTV can be performed as shown in FIG.

After selecting the approximate location of the CCTV according to the present invention, the visible area analysis is performed in each direction, and the visible area and the visible ratio are numerically calculated and supported. We implemented real CCTV motion through CCTV PTZ simulation at approximate position, and changed the height value and CCTV model to implement the visual range and viewing angle virtually so that the actual situation when the actual CCTV was installed is realized as shown in FIG. 3 can see.

The visible range, directionality, radius, etc. between each CCTV can be checked as shown in FIG. 4 through the display of the effective visible range between the effective visible distance radius and the other CCTV models.

According to another preferred embodiment of the present invention, the development of the technology for calculating the damage scale of property, life, etc. according to the spread of the risk of the present invention is necessary for the reason described in detail below.

In other words, chemicals in modern civilized societies are used to overcome diseases, extend the life of drugs, agricultural revolution, pesticides for food production, consumer products for convenience, product materials to provide a rich life, industrial raw materials . However, these chemicals have harmful effects such as persistence which causes serious health and environmental damage, prolonged decomposition thereof, spreading ability to transfer to a long distance transportation medium, durability caused by carcinogenic teratomas, and difficult visibility. Recently, there is a risk of chemical accidents due to aging of chemical handling facilities and increase of circulating amount of chemical substances in Korea. It accounts for 3.4% of the global chemical market and is ranked 6th in the world (2010), so the risk of chemical accidents is high. Chemical industrial complexes handle a large amount of chemical substances, and most chemical industrial complexes have been aged for a long time. In particular, according to the goals of the 5th year of the 4th economic development in the 1960s and 1970s, industrial growth was achieved by promoting industrialization of heavy and chemical industries. It was built in Gumi Industrial Complex (68 years), Ulsan Mipo Industrial Complex (62 years), Yeosu Industrial Complex (82 years) and Daesan Industrial Complex (88 years). With the deterioration of the foundation, chemical accidents are continuously increasing year by year. These chemical accidents can cause various damages, including human health, human and animal property including ecosystem and property such as animals and plants, and accurate scale and economic loss of chemical accident damage are the basis for taking accidents and post- It plays a key role in providing

Therefore, the development of the technology for calculating the damage scale of chemical substances includes the estimation of the damage scale. In order to estimate the population damage from the damage scale prediction, the aggregation zone used as the minimum statistical zone unit constructed to provide statistical information by the National Statistical Office Can be applied.

The aggregation district is a boundary that divides the basic units into several groups and maintains a certain population size (500 persons) and collects similar socioeconomic groups. It is larger than the basic unit and smaller than the administrative districts. Of the total. As shown in FIG. 5, aggregate population raw data can be visualized using an application program. These aggregate data are processed and services are provided to the DB using a spatial database. It utilizes a spatial database (Spatial Database) that efficiently stores, retrieves, and manages various data types including spatial data types used in GIS.

We use the results of the analysis process of the hazardous material diffusion simulator to predict the damaged building. The txt file has head information such as cell size and coordinate information, and contamination information. Except for the head information of the txt file, the representation of the contamination information is the same as the analysis result file of the hazardous material diffusion simulator as shown in FIG. Using the result value of the damaged building, it is possible to express the color of the building damage by using the following building damage image (using BufferedImage) and omitting the coordinate area of building damage (Open CV). Figs. 7 and 8 are obtained by visualizing the results of the respective primitive data in a synthesized manner.

It is a reality that there is not enough methodology, method and system based on scientific analysis on the scale of damage in case of chemical accident. In the present invention, a method for estimating a predictable damage scale as shown in FIG. 9 is suggested using a GIS when a chemical accident occurs. In the future, if the analysis is performed based on more precise and accurate data than the aggregated data, it is expected that accuracy will be improved in calculating the scale and extent of the damage. In addition, it is designed and constructed as a simple comparison type through the search with statistical data, but future studies such as accurate comparison data, statistical verification, and calculation of the damage range can be carried out.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

(Without reference numerals)

Claims (1)

As a method to acquire the most reliable site information to minimize the damage caused by the spread of the risk in the industrial complex,
The above method is a method of calculating damages due to the spread of risk by selecting appropriate sensor position by uploading various kinds of site information data using a system (which is a computer program) for analyzing the site information installed in the operating computer and setting parameters of the CCTV The method comprising:
A process in which information on the site is input to the operating computer so that the visibility of the site information can be analyzed;
After selecting the approximate location of CCTV, we analyze the visibility area in each direction and calculate the visibility ratio of the enemy and the viewpoint, and implement the actual CCTV movement through the CCTV PTZ simulation at the approximate location. A viewpoint range and a viewing angle are virtually implemented so as to implement a situation where a real CCTV is installed in the future, and the optimal location is calculated by checking a distance between the CCTV and an overlapping range of the visible range;
The actual damage situation is observed at the optimal location. However, since the aggregate area constructed to provide the statistical information at the statistical office is used as a unit of the GIS service for calculating the population damage, Which is a database for efficiently storing, retrieving, and managing various data types including spatial data types used in GIS while processing the above aggregate data by using an application program, (Spatial Database);
In order to predict the damaged building, the analysis result file of the hazardous material diffusion simulator is obtained by expressing only the pollution information, excluding the head information such as the cell size and coordinate information, in the txt file, And visualizing the building damage on the monitor screen by omitting only the coordinate area of the building damage (Open CV).

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