KR102111348B1 - System for sharing upis information based on time-series tracking and data matching - Google Patents

Abstract

According to the present invention, a system for sharing urban planning information system (UPIS) information based on time-series tracking and data matching comprises: a reception unit receiving n^th (n is a natural number greater than or equal to one) basic information including spatial information and attribute information on city planning information from a manager client; a low data generation unit generating n^th raw data in association with the spatial information and the attribute information by processing data in a standardized format when the spatial information and the attribute information included in the n^th basic information correspond to each other, wherein time stamp information representing a period of the basic information is assigned to generate the n^th raw data; a selection control unit selecting raw data corresponding to request information from total data; and a data sharing unit providing the selected raw data to a user client. The system for sharing UPIS information based on time-series tracking and data matching can optimize the resource utilization of hardware.

Description

{SYSTEM FOR SHARING UPIS INFORMATION BASED ON TIME-SERIES TRACKING AND DATA MATCHING} based on time series tracking and data matching

The present invention relates to a system and method for sharing and providing UPIS (Urban Planning Information System) information, and more specifically, provides UPIS-related data that meets user needs through an engineering design method and inspection process, By selecting and providing the data system that best matches the specific point of time required from users, among time-variant data, it minimizes human-dependent methods and optimizes data accuracy and responsiveness. It relates to a system and method that can.

The Urban Planning Information System (UPIS) has been introduced and utilized to provide a more systematic and objective basis for planned management and use of land.

This urban planning and information system is based on related laws and regulations, as well as the drafting, decision, execution, and approval procedures, so that the needs of various actors such as the government, local governments, and residents can be comprehensively and three-dimensionally considered. It is designed to efficiently support related departments' consultations, councils, city planning committees, etc., and transparently support processes such as handling complaints and collecting opinions from residents.

The city planning information system is an integrated information system that can be operated at the national level.GIS (Geographic Information System) in which information on topographic maps, geological maps, soil maps, cadastral maps, water and sewage facilities, road networks, etc. is combined with a two-dimensional or three-dimensional coordinate location system. ) Information and image data for each topographic map and geological map, image data and information for the facility, as well as numerous data, systematic information generated by various policy bases, spatial information and attribute information systems It can be said to be an aggregate.

In addition, the urban planning information system is a map data that is organically combined with such attribute information and GIS information, and various thematic maps (administrative district maps, topographic maps, etc.) created by actual surveys or comprehensively reflecting prediction results. It is composed of interlocking with forest road, aeronautical road, military road, population distribution map, river map, soil map, etc., and these thematic maps include basic property information such as land status, elevation, slope, land price, cadastral point, land, and area. Image data for the back is also included.

Furthermore, the city planning information system is a DB that collects a variety of data on public notices, protocols, figures, facility objects, point of interest (POI) information, approvals, suspensions, authorizations, etc. of city plans related to facilities, districts, and areas. Furthermore, the data created with paper media are individually stored as electronic documents through scanning.

The city planning information system has a structure in which such a large amount of data is aggregated, so it can be said to be somewhat useful in terms of comprehensive utilization, but it requires a large amount of hardware resources and requires a high-end engine, so small municipalities or general users It can be said that there are significant limitations to the easy and convenient use of the back.

In addition, it can be said that there is an intrinsic problem that it is extremely difficult for a person in charge or a general user to accurately select and check only the relevant data or information, so it is extremely difficult to implement the instantaneity of information verification and information sharing.

Furthermore, in urban planning information systems, it is common for various data to be changed or modified according to changes in time or period even in the same facilities, districts, and areas. It can be said that the effective use of the data DB structure is extremely limited because it takes a method to store it.

Considering in this regard, the city planning information system introduced to enhance the convenience and efficiency of each actor, or the system using the same, has increased the user's inconvenience due to the problems described above, and is sufficient for system operation. It can be said that it is very difficult to use local governments that have no infrastructure for equipment, facilities, etc., and it is almost impossible to use them for ordinary users using personal terminals.

Furthermore, as the city planning information system is integrated and operated by multiple actors with various interests, the process of data verification, inspection, and modification is fairly closed, thereby improving the objective consistency of each data and speeding up the inspection process more quickly. It can be said that there are significant problems in transparent processing.

In addition, since all data related to UPIS is formed as one fixed data group, it is difficult to easily understand the association between each information belonging to these data, and furthermore, it is necessary to search or check information in the data group, as well as necessary data. It has a problem that it is very difficult to extract and provide each element, so that various uses for data are extremely limited.

Korean Patent Publication No. 10-2017-0051971 (2017.05.12) Korean Registered Patent Publication No. 10-1859129 (2018.05.11)

The present invention was devised to solve the above-mentioned problems in the background as described above, and decentralized or diversified the data structures constituting the city planning information system, grouped data as necessary, or integrated into a structure that can be integrated through a data engineering method. By implementing, the efficiency of data construction or storage is dramatically improved, and the use and utilization of city planning information is made possible by allowing time-variant various data or information to be shared more accurately and quickly according to viewpoint standards. The aim is to provide a system and method to make this more universally scalable.

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by embodiments of the present invention. In addition, the objects and advantages of the present invention can be realized by a combination of the configuration and the configuration shown in the claims.

The UPIS information sharing system based on time-series tracking and data matching of the present invention for achieving the above object is an attribute for spatial information and numerical or text-based urban planning information for a figure system or image-based urban planning information from an administrator client. A receiving unit for receiving n (n is a natural number greater than or equal to 1) -th basic information including information; A matching determination unit for determining whether the spatial information and the attribute information included in the n-th basic information correspond to each other; When spatial information and attribute information included in the n-th basic information correspond to each other, n (n is a natural number of 1 or more) th raw data by processing data in a standardized format and linking the spatial information and attribute information A low data generation unit for generating and generating time stamp information representing a period of the basic information; A DB storage unit for storing total data consisting of first to nth raw data; A request information receiving unit for receiving request information from a user client; A selection control unit for selecting raw data corresponding to the request information from the total data; And a data sharing unit that provides the selected raw data to the user client.

Here, the request information of the present invention may include date information of the city planning information requiring confirmation, in which case, the selection control unit of the present invention is a time stamp included in each raw data constituting the total data. An extraction unit for extracting information; A contrast determination unit that contrasts the extracted time stamp information with the date information; And it may be configured to include a selection unit for selecting the raw data to which the time stamp information is provided closest to the date information.

In addition, the selection control unit of the present invention, if there is a plurality of raw data to which time stamp information within a reference time range based on before and after the date information is present, respectively, based on before and after the date information A second sorting unit for sorting the first raw data and the second raw data which are the contacted raw data; A subsequent preparation unit for determining whether the first and second raw data match each other; And if the first and second raw data do not coincide with each other, a variable data generating unit that generates fluctuating data consisting of information that does not match with each other among spatial information and attribute information included in each of the first and second raw data. It can contain.

In the case of the above embodiment, the data sharing unit of the present invention provides one of the first and second raw data to the user client when the first and second raw data match each other, and the first and second When the raw data do not match each other, one of the first raw data or the second raw data and the variable data may be configured to be provided to the user client together.

Preferably, the matching determination unit of the present invention comprises: a standard data storage unit storing first standard data including standard map data for a plurality of subject maps, feature information for facilities, and reference location information for administrative area boundaries; An element data extracting unit for extracting object data for the facility included in the n-th basic information, area information of the object data, coordinate information, and figure characteristic information; And a matching data generating unit generating matching or mismatching confirmation data of the n-th basic information by comparing the extracted element data with the first standard data. In this case, the raw data generating unit of the present invention It may be configured to generate the n-th raw data only when the matching confirmation data is generated.

Further, the matching determination unit of the present invention, when the mismatch confirmation data of the n-th basic information is generated, an alarm information generation unit that generates alarm information thereon; And an alarm information transmission unit transmitting the generated alarm information to a corresponding manager client.

More preferably, the matching determination unit of the present invention transmits the n-th basic information to an external agency server or an external inspection server, and the matching inspection information or mismatch inspection information of the n-th basic information from the external agency server or external inspection server It may further include a verification information receiving unit for receiving, in this case, the matching data is generated by the matching data generating unit of the present invention, the matching data generation unit receives the matching verification information from the external institution server or the external inspection server. If possible, it may be configured to generate the n-th raw data.

In addition, the matching determination unit of the present invention, if the matching confirmation data or mismatch confirmation data and the matching inspection information or mismatch inspection information do not coincide with each other, the external institution server or an external inspection signal for requesting transmission of new standard data A standard data request unit that transmits to the server; And a standard data update unit for updating and storing new standard data received from the external institution server or the external inspection server as the first standard data.

According to an embodiment, the data processing part of the present invention is m (m is a natural number of 1 or more and k-1 or less) where k (k is a natural number of 2 or more and n or less) is one of the first to k-1th basic information. If it is the same as the) th basic information, it may be configured to generate the kth raw data only with link information of the mth raw data generated using the mth basic information.

As an alternatively corresponding embodiment, the data processing unit of the present invention is m (m is 1 or more k) where k (k is a natural number from 2 to n) is one of the first to k-1th basic information. -Natural number less than or equal to 1) If it is closest to the first basic information, k as the separation information consisting of the link information of the m-th raw data generated using the m-th basic information and the difference between the m-th basic information and the k-th basic information It may be configured to generate the first raw data.

In this case, when the raw data corresponding to the request information is composed of the link information and the separation information, the data sharing unit of the present invention reads the raw data corresponding to the link information and merges the read raw data and the separation information. It can be configured to calculate and provide to the user client.

More preferably, the time stamp information may further include validity period information of the basic information, and the DB storage unit of the present invention has identification information for multiple administrators and authority information differentially granted for each of the multiple administrators. It can be configured to be further stored in conjunction.

In this case, if the difference between the time stamp information and the current time information is within a reference setting value, the present invention transmits information requesting an extension confirmation to both the corresponding manager client and the corresponding upper manager client, and the corresponding manager and the higher manager Only when a confirmation signal is received from all of the clients, the schedule processing unit for extending the validity period information included in the time stamp information may be further included.

The UPIS information sharing method based on time-series tracking and data matching according to another aspect of the present invention includes spatial information on a figure system or image-based city planning information from an administrator client and attribute information on numerical or text-based city planning information. A receiving step of receiving n (n is a natural number greater than or equal to 1) th basic information; A matching determination step of determining whether spatial information and attribute information included in the n-th basic information correspond to each other; When spatial information and attribute information included in the n-th basic information correspond to each other, n (n is a natural number of 1 or more) th raw data by processing data in a standardized format and linking the spatial information and attribute information Generating, but generating the raw data by giving time stamp information representing the period of the basic information; A request information receiving step of receiving request information from a user client; A selection control step of selecting raw data corresponding to the request information from total data consisting of first to nth raw data; And a data sharing step of providing the selected raw data to the user client.

According to an embodiment of the present invention, by classifying and objectifying each data or information and constructing a data DB in a structure in which they are combined with each other, various situations can be more organically reflected, thereby utilizing hardware resources such as data construction and storage. Can be further optimized.

Further, according to another embodiment of the present invention, by incorporating timestamp information representing a period of time into a data structure, data validity, validity period, etc. can be induced to be verifiable from various actors at various angles, and thus the latestness of the data. It can provide an effect that can be maintained continuously.

In addition, according to another embodiment of the present invention, by dividing the data structure that changes in time series into a common part and a part in which variation occurs, the inefficiency of data being duplicated and stored is basically prevented to store and utilize data. Can be further maximized.

In addition, according to the present invention, it is possible to provide a system in which data accuracy and objectivity are more effectively secured by organically reflecting inspection processing by an external inspection agency as well as self-data inspection in the data generation process and storage processing. have.

The following drawings attached to this specification are intended to illustrate preferred embodiments of the present invention, and serve to more effectively understand the technical spirit of the present invention together with the detailed description of the invention described below. It should not be interpreted as being limited to the matter.
1 is a view showing the overall system and related configuration according to the present invention,
2 is a block diagram showing a detailed configuration of a system according to a first embodiment of the present invention,
Figure 3 is a block diagram showing a detailed configuration of the screening control unit of the present invention shown in Figure 2,
Figure 4 is a block diagram showing the detailed configuration of the mating panel of the present invention shown in Figure 2,
5 to 7 are flowcharts illustrating processing processes of an information providing method implemented in a system according to a first embodiment of the present invention,
8 is a block diagram showing a detailed configuration of a system according to a second embodiment of the present invention,
9 is a block diagram showing a detailed configuration of the rendering processing unit and the main control unit shown in FIG. 8;
10 and 11 are flowcharts illustrating a processing process according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be interpreted as being limited to ordinary or dictionary meanings, and the inventor appropriately explains the concept of terms in order to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in this specification is only one of the most preferred embodiments of the present invention and does not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application It should be understood that there may be water and variations.

1 is a view showing the information sharing system (100, 200) according to an embodiment of the present invention and related configurations thereof in general.

Prior to the description of a specific embodiment of the detailed configuration and processing of the present invention, the overall contents of the present invention and related configurations will be described first with reference to FIG. 1.

The information sharing systems 100 and 200 of the present invention are communicatively connected to the user client 30 and the administrator client 10 through the communication network 50 as shown in FIG. 1 to transmit and receive necessary information or data. It is composed.

The user client 30 uses the urban planning information system to apply for permission to develop activities, or checks development projects in areas, areas, districts, etc. to which they belong and provides information for collecting opinions or submits complaints It means a device representing a terminal.

Since the information sharing system (100, 200) of the present invention can be implemented as a server that can be accessed online, a device representing a user terminal (cell phone, PDA, PC, tablet, etc.) in a corresponding aspect to such a server is described below as a user client Referred to as (30).

As will be described later, the information sharing systems 100 and 200 of the present invention process data through a data engineering design that constructs and distributes various data structures in three dimensions for the urban planning information system in a GUI environment. It is configured to be optimized and provided to the user client 30.

The manager client 10, which is communicatively connected through the information sharing system 100, 200 of the present invention and the communication network 50, establishes or checks policies or plans, such as a planner, a policy enforcer, and a business performer. Refers to a device representing a terminal of a person who maintains (hereinafter referred to as an 'administrator'), and an administrator in terms of the information sharing system 200 of the present invention that can be implemented as an online server as described above. The terminal device or the like corresponding to the side is referred to as the manager client 10 in the following description.

The user client 30 and the administrator client 10 are provided with a module capable of communicating with the information sharing system 200 according to the present invention, and if proper data processing can be performed, the type of the terminal or the name referred to is not limited. Of course, it may correspond to the user client 30 or the administrator client 10.

The information sharing system (100, 200) of the present invention is a system that comprehensively utilizes notices, protocols, various thematic maps, GIS information, etc. on the city planning information system, as described above, so that the latest map data, if necessary, In order to update the standard data system, it may be communicatively connected to an external institution server 20 such as a government agency or the National Geographic Information Institute.

Furthermore, the information sharing systems 100 and 200 of the present invention internally perform processing to check data errors or consistency, as well as information and data received by the information sharing systems 100 and 200, and are processed internally. In order to double check the verification, inspection, etc. of the generated data object, it is also communicatively connected to the external inspection server 40 to transmit a signal requesting inspection, etc. It can be configured to be further confirmed.

The communication network 50 is capable of data communication between the information sharing system 100 and 200 of the present invention and the user client 30, the administrator client 10, the external institution server 20 or the external inspection server 40. As a communication network to allow data transmission, it is possible to implement various protocols and methods such as the Internet, LAN, CDMA, WCDMA, LTE, WiFi, etc., if data transmission is possible.

FIG. 2 is a block diagram showing the detailed configuration of a UPIS information sharing system (hereinafter referred to as an 'information sharing system') 100 based on time series tracking and data matching according to the first embodiment of the present invention. It is a flowchart for explaining the overall processing process of the information providing method implemented in the information sharing system 100 according to the first embodiment of the present invention.

Hereinafter, a detailed configuration and processing of the information sharing system 100 according to the first embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The information sharing system 100 according to the first embodiment of the present invention, as shown in Figure 2, the receiving unit 110, the matching determination unit 120, the raw data generation unit 130, the DB storage unit 140 , Request information receiving unit 150, a selection control unit 160, a data sharing unit 170 and a schedule processing unit 180.

Prior to the detailed description of the present invention, each component of the information sharing system 100, the selection control unit 160 and the matching determination unit 120 of the present invention shown in block diagrams in FIGS. 2 to 4 is a physically divided component. Rather, it should be understood as a logically divided component.

That is, since each component corresponds to a logical component for realizing the technical idea of the present invention, even if each component is integrated or separately configured, if the function performed by the logical component of the present invention can be realized, It should be interpreted that it is within the scope, and components that perform the same or similar functions should be interpreted as being within the scope of the present invention regardless of whether or not there is consistency in the name.

The receiving unit 110 of the present invention receives n-th basic information including spatial information on city planning information and attribute information on city planning information from one or more manager clients 10 (S500, see FIG. 5). Here, n is a natural number of 1 or more.

In the description of the present invention, the basic information is a term used as a meaning including spatial information and attribute information received from the manager client 10, and the spatial information or spatial data are used areas, districts, district maps, and cities. It can be composed of planning facility, district unit planning area, planning figure, history diagram, city development project area, various thematic maps, continuous cadastral map, digital topographic map, continuous main system, etc., and vector data representing points, lines, faces, etc. , Raster data, etc., and may be formed of a figure system or image-based data.

The above attribute information includes drafting data (resident opinion hearing data, committee deliberation data, committee consultation data, public notices, public notice data, etc.), public notice data (decision notice, approval notice, execution notice), written data (use area / district / zone, Urban planning facilities, district unit plans, urban development projects, etc.), and can be based on numerical or textual basis.

According to an embodiment, when the data for the attribute information is made of a paper medium, it is preferable that information is constructed based on text through scanning and OCR (Optical Character Recognition).

When the n-th basic information is received as described above, the matching determination unit 120 of the present invention parses the spatial information and the attribute information included in the n-th basic information to determine whether the spatial information and the attribute information correspond to each other. (S510). The specific processing of the matching determination unit 120 will be described later.

If the spatial information and the attribute information do not correspond to each other, the matching decision unit 120 of the present invention transmits the guide information including information on the targets, etc., which do not correspond to each other, to the corresponding manager client 10 (S515) and the corresponding basic information It is preferred to configure the transfer process.

In this way, when spatial information and attribute information representing the same business, project, or plan do not correspond to each other, it is desirable to configure such that error information is not generated in the initial stage of data generation.

 On the contrary, when the spatial information and the attribute information included in the n-th basic information correspond to each other, the raw data generation unit 130 of the present invention processes data in a standardized format and is the n-th data that links the spatial information and the attribute information. Raw data is generated (S520).

The first to nth raw data thus generated is stored in the DB storage 140 of the present invention (S530). In the following description, the first to nth raw data stored in the DB storage unit 140 are collectively referred to as total data.

The n-th basic information and the n-th raw data have the same ordinal number “n-th”, but this is only for convenience of understanding and efficiency of explanation, and an error occurs in the basic information and returned. Of course, it can be understood that n written in the basic information and n written in the raw data may be different numbers.

On the other hand, when generating the n-th raw data, the raw data generating unit 130 of the present invention effectively utilizes time-series continuity of each raw data, as well as specific raw data requested to be confirmed by the user client 30 in the future. In order to be more quickly shared / transmitted, it is possible to generate n-th raw data to which timestamp information representing a period of basic information is assigned.

The time stamp information corresponds to information including the time information at which the raw data is generated, the execution period of the city planning project for the region / district / area, etc., and the step-by-step period required for the subsequent work of the project. .

According to the embodiment, as a period in which the manager in charge guarantees the reliability or effectiveness of the basic information under his responsibility, it may be configured to set the effective period information of the basic information.

In this configuration, it is possible to induce the manager in charge to check and review the accuracy of the basic information more carefully, so that the reliability and credibility of the basic information can be further increased, and more reliable for users who use the information. Information can be provided.

In order to realize this effect more effectively, it is preferable that the time stamp information is configured to include personal information and electronic signature of a corresponding person in charge.

In addition, according to the embodiment, the identification information for multiple managers and the rights information differentially granted to each of the plurality of managers may be configured to be stored in the DB storage 140 of the present invention.

In this case, the schedule processing unit 180 of the present invention compares the validity period information included in the timestamp information (for example, from January 1, 0000 to March 31, the same year) with the time information at the present time It may be configured to determine whether the difference is within a reference set value (eg, 10 days).

When the difference between the time stamp information and the current time information is within a reference setting value according to the contrast determination, the schedule processing unit 180 of the present invention reads differential authority information for each manager stored in the DB storage unit 140 (access) and read), and transmits information requesting the extension confirmation to all clients corresponding to the super administrator of the administrator, as well as the administrator client 10.

Thereafter, the validity period information included in the timestamp information is configured to be renewed only when confirmation signals are received from all of these clients within a predetermined time.

If such a confirmation signal is not received within a predetermined time from both the manager and the upper manager client 10, such information or data is discarded or the basic information and raw data generated based on the information are separately separated and stored. It is desirable to configure such that access and use of general users are restricted by applying the method.

Meanwhile, the request information receiving unit 150 of the present invention receives request information requesting confirmation of raw data from the user client 30. The request information may include information about the object to be confirmed, and may include date information of city planning information that needs to be confirmed.

When request information is received from the user client 30 as described above, the selective control unit 160 of the present invention receives raw data corresponding to the requested information among the total data (1st to nth raw data) stored in the DB storage 140. Screening (S540), the data sharing unit 170 of the present invention controls the selected raw data to be provided to the user client 30 in a GUI environment (S550).

On the other hand, in relation to the processing for generating each raw data, the raw data generating unit 130 of the present invention is the first k from k (where k is a natural number greater than or equal to 2 or less) th basic information is generated and stored in advance. -If it is the same as the m basic information, which is one of the first basic information (m is a natural number of 1 or more and k-1 or less), the raw data by the K basic information is not directly generated, but is generated using the m basic information The k-th raw data can be generated only with the link information of the m-th raw data.

In addition, according to the embodiment, the raw data generation unit 130 of the present invention has m (m is 1 or more k) where k (k is a natural number from 2 to n) is one of the first to k-1th basic information. -Natural number less than or equal to 1) If it is closest to the first basic information, use the link information of the m-th raw data generated using the m-th basic information and the separation information consisting of the difference between the m-th basic information and the k-th basic information. By doing so, k-th raw data can be generated. That is, in this case, the k-th raw data consists only of link information and separation information representing the m-th raw data.

In this way, if each raw data is not generated individually, but only that link data is generated only with link information or only with link information and separation information, it is not necessary to generate all of the individual raw data having a large capacity. In addition to increasing the efficiency of data capacity processing, it is possible to improve overall efficiency related to processing time, calculation speed, and the like based on the efficiency of the data structure.

3 is a block diagram showing a detailed configuration of the screening control unit 160 of the present invention shown in FIG. 2, and FIG. 6 is a processing process of an information providing method implemented in a system according to a first embodiment of the present invention It is a flow chart explaining.

3, the selection control unit 160 of the present invention includes an extraction unit 161, a contrast determination unit 162, a selection unit 163, a second selection unit 164, a subsequent preparation unit 165, It may be configured to include a first interface unit 167 and the variable data generation unit 166.

When the request information is received as described above, the extraction unit 161 extracts timestamp information included in each raw data (1st to nth raw data) constituting the total data (S600. See FIG. 6). ).

When the timestamp information is extracted, the contrast determination unit 162 of the present invention performs processing to contrast the extracted timestamp information and the date information included in the request information (S620), and the selector 163 of the present invention The raw data to which the timestamp information closest to the date information is assigned is selected (S650).

When the raw data with the closest time stamp information is selected as described above, the selected raw data is delivered to the data sharing unit 170 of the present invention through the first interface unit 167 and finally provided to the user client 30. It becomes (S685).

 According to the present invention, it is possible to promptly provide a user with the latest information that is most suitable based on viewpoint information desired by the user through such processing.

In order to implement a preferred embodiment, the second sorting unit 164 of the present invention is within a reference time (for example, 3 days or a week, etc.) based on before and after date information (information contained in the request information). When there are a plurality of raw data with time stamp information (S630), the first raw data, which is the closest raw data based on the transfer of the date information, and the closest raw data, based on the date after the date information are removed. It may be configured to select each of the two data (S640).

Thus, when the first and second raw data are selected by the second sorting unit 164, the data sharing unit 170 of the present invention is configured to transmit both of the first and second raw data to the user client 30 do.

Of course, these data may be configured to be displayed in a predetermined GUI environment including user input means (scroll, select button, etc.) by driving a program pre-loaded in the user client 30.

In this way, by providing time stamp information comprehensively to provide the user with the closest raw data before and after the specific point in time desired by the user, various information and data about the city planning information system changed based on the specific point in time Of course, it is possible to more easily and clearly track the changes in the urban planning information system as a GUI environment, making the system environment more user-oriented.

According to the embodiment, when the sorting unit 163 of the present invention sorts the first and second raw data, the subsequent preparation unit 165 of the present invention determines whether these first raw data and second raw data coincide with each other. It may be configured to determine whether (S660).

As a result of the determination processing, when the first and second raw data are mutually identical or substantially the same, one of the first or second raw data may be configured to be provided to the user client 30 (S683).

On the contrary, when the first raw data and the second raw data do not correspond to each other, the variable data generating unit 166 of the present invention mutually among the spatial information and the attribute information included in each of the first raw data and the second raw data. Variation data that can be made up of information items and contents that do not match is generated (S670).

When the variation data is generated in this way, the data sharing unit 170 of the present invention is configured to provide the user client 30 with one or more of the first and second data and the variation data together. Through this configuration of the present invention, the user, etc. can more accurately and quickly check whether any item has been changed before and after based on a specific time point.

4 is a block diagram showing a detailed configuration of the matching determination unit 120 of the present invention shown in FIG. 2, and FIG. 7 is another processing of the information providing method implemented in the system according to the first embodiment of the present invention. It is a flow chart explaining the process.

4, the matching determination unit 120 of the present invention includes a standard data storage unit 121, an element data extraction unit 122, a matching data generation unit 123, an alarm information generation unit 124, and an alarm. It may be configured to include an information transmission unit 125, the inspection information receiving unit 126, the standard data request unit 127 and the standard data update unit 128.

Hereinafter, with reference to FIGS. 4 and 7, information on the integrity of the data will be shared with each other through a manager and the like so that the accuracy of the data can be further increased and the efficiency of data generation related to the urban planning information system can be further improved. It will be described in detail an embodiment of the present invention.

First, the standard data storage unit 121 of the present invention includes standard map data for a plurality of subject maps, digital-based feature information and administrative area boundaries that can identify facilities such as buildings, transportation facilities, environmental facilities, government offices, and the like. The first standard data including reference position information for the storage is stored (S700. See FIG. 7).

Element data extraction unit 122 of the present invention, as described above, when the n-th basic information is received from the manager client 10, object data for the facilities included in the n-th basic information, area information of the object data, Element data including coordinate information and figure characteristic information is extracted (S710).

When extraction of the element data is completed as described above, the matching data generating unit 123 of the present invention performs processing to compare the extracted element data with the first standard data, such as an error in the nth basic information including the element data. It is determined whether it exists (S720).

As a result of the processing, if the extracted element data does not correspond to the data defined in the first standard data, the matching data generation unit 123 of the present invention generates mismatch confirmation data (S735) and the alarm information generation unit 124 Generates alarm information including guide information for mismatch, and the generated alarm information is transmitted to the corresponding manager client 10 through the alarm information transmitting unit 125 (S775).

As described above, when the basic information is received from the manager client 10, it is primarily determined whether spatial information and attribute information included in the basic information correspond to each other, and furthermore, element data included in the basic information is first By secondarily determining whether it conforms to standard data, data accuracy can be further improved from the initial stage of data generation, and the accuracy of data can be secured more effectively through a circular structure of feedback control that allows related information to be shared with managers. Can be induced.

In a corresponding viewpoint, the raw data generation unit 130 of the present invention is a result of processing of the matching data generation unit 123, that is, when the extracted element data corresponds to data defined in the first standard data, that is, matching The nth raw data is generated only when the data generation unit 123 generates the matching confirmation data (S770).

In order to further increase the accuracy of the data, the inspection information receiving unit 126 of the present invention transmits the n-th basic information to the external agency server 20 or the external inspection server 40 (S740), or the external agency server 20 or It may be configured to receive matching inspection information or mismatch inspection information for the n-th basic information from the external inspection server 40 (S750).

In this case, the raw data generation unit 130 of the present invention primarily meets the parallel conditions in which matching confirmation data is generated by internal processing (S730) and additionally, the matching inspection information is received from the external institution server 20, etc. Only in the case of generating n-th raw data (S770).

Furthermore, in the internal processing, when the correct confirmation data is generated (S730), but when mismatch inspection information is received from the external institution server 20, the raw data generation unit 130 of the present invention may be configured not to generate raw data. have. In this case, it is of course possible to be configured to generate guide information for mismatches, etc. and to transmit it to the corresponding manager client 10 (S775).

On the other hand, in the internal processing of the matching data generating unit 123, matching confirmation data has been generated, but the confirmation data and the inspection information are mutually identical, as in the case where mismatch inspection information is received from the external institution server 20 or the external inspection server 40. If they do not match, the standard data request unit 127 of the present invention is highly likely to be a problem of the first standard data itself stored in the standard data storage unit 121. ) Or the external inspection server 40.

When new standard data is transmitted, the standard data update unit 128 of the present invention updates and stores the received new standard data as the first standard data, thereby continuously checking and maintaining the latestness of the first standard data stored therein. It becomes possible.

Hereinafter, a detailed configuration and processing method of a system according to a second embodiment of the present invention will be described in detail with reference to FIGS. 8 to 11.

8 is a block diagram showing a detailed configuration of the information sharing system 200 according to the second embodiment of the present invention, and FIG. 10 is a diagram illustrating the overall processing process of the information sharing method according to the second embodiment of the present invention. It is a flow chart.

Hereinafter, a detailed configuration and processing of the information sharing system 200 according to the second embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 8, the information sharing system 200 according to the second embodiment of the present invention includes a spatial information storage unit 210, an attribute information receiving unit 220, a parsing unit 230, and a spatial information selection unit ( 240), a data object generation unit 250, a reference data storage unit 260, an interfacing unit 270, a main control unit 280, a rendering processing unit 290, and a matching processing unit 298.

As described above, each component of the information sharing system 200, the rendering processing unit 290, and the main control unit 280 of the present invention shown in block diagrams in FIGS. 8 and 9 is also a physically separated component. Rather, it should be understood as a logically divided component.

When the spatial information for the city planning information is transmitted from the manager client 10 (S100), the spatial information storage unit 210 of the present invention receives and stores the transmitted spatial information (S110).

The spatial information or spatial data includes identification information of the target object, facility type information, location information, area information, usage area, district, district map, city planning facility, district unit planning area, planning diagram, history diagram, and urban development project area. It may include text-based data such as, and may be based on a graphic system or image based on various subject maps, continuous maps, numerical topographic maps, vector data representing points, lines, faces, raster data, etc., depending on the embodiment. Data may also be included.

The attribute information receiving unit 220 of the present invention receives the n-th attribute information including one or more of notification information or written information about city planning information from the manager client or another manager client 10 (S105) and stores it ( S110). Here, n is a natural number of 1 or more.

The above attribute information includes drafting data (resident opinion hearing data, committee deliberation data, committee consultation data, public notices, public notice data, etc.), public notice data (decision notice, approval notice, execution notice), written data (use area / district / zone, Urban planning facilities, district unit plans, urban development projects, etc.), and can be based on numerical or textual basis.

According to an embodiment, when the data for the attribute information is made of a paper medium, it is preferable that information is constructed based on text through scanning and OCR (Optical Character Recognition).

When the attribute information is transmitted to the attribute information receiving unit 220 of the present invention, the parsing unit 230 of the present invention parses the text-based data included in the n-th attribute information and temporarily parses the parsed text data. It is stored in the manner of saving (S120).

When the analysis and extraction of text data included in the attribute information is completed, the spatial information selection unit 240 of the present invention is spatial information corresponding to the parsed text data (hereinafter referred to as spatial information) stored in the spatial information storage unit 210. It is referred to as 'selected spatial information') (S130).

Thereafter, the data object creation unit 250 of the present invention generates and stores an n-th data object in which the selected spatial information and the n-th attribute information are mutually linked (S140).

As described above, the present invention applies a method of generating data objects by individually objectifying attribute information and spatial information, extracting corresponding spatial information according to input attribute information, and correlating them.

Meanwhile, the reference data storage unit 260 of the present invention stores reference data including map data for each of a plurality of subject maps, characteristic information for facilities, and reference location information for administrative area boundaries.

This reference data is data by map data, road name address system, GIS information system, etc. that are continuously updated from external agency servers 20, such as national agencies, which are communicatively connected. This corresponds to the data that serves as a basis for identifying regions, earth, etc., and accurately grasping physical location relationships.

In this regard, the matching processing unit 298 of the present invention generates and stores alarm information for location information and area information included in the selected spatial information if they do not match or do not match the information included in the reference data. The administrator client 10 is configured to transmit the alarm information.

When a request signal containing information on a target object or the like to be checked is received from the user client 30 through the interfacing unit 270 of the present invention (S160), the main control unit 280 of the present invention is the first to nth data Among the objects, a data object corresponding to the request signal (hereinafter referred to as an 'object object') is extracted (S170), and among the reference data stored in the reference data storage unit 260, the reference data corresponding to the object object and the A merging operation is performed on the extracted object object (S180).

The main control unit 280 of the present invention is preferably configured to render the object object and merge it into the reference data when merging the object object into the reference data in order to more effectively implement the visual object characterization for the graphic element. Do. The detailed configuration of the rendering process of the present invention will be described later.

When the merging operation processing is completed, the main control unit 280 of the present invention controls the merging data having completed merging operation processing to be transmitted to the corresponding user client 30 (S190).

The merging data can be displayed in a predetermined GUI environment including user input means (scroll, select button, etc.) by driving a predetermined program (app, app) pre-loaded in the user client 30 (S195). Of course.

9 is a block diagram showing a detailed configuration of the rendering processing unit 290 and the main control unit 280 according to the second embodiment of the present invention, and FIG. 11 is another information sharing method according to the second embodiment of the present invention. It is a flowchart explaining the processing process.

The rendering processing unit 290 of the present invention is configured to render an input object object when an object object is input from the main control unit 280 and feed the rendered object object as a rendered object object back to the main control unit 280. , Specifically, as shown in FIG. 9, may include an object input unit 291, a characteristic information storage unit 293, a characteristic information extraction unit 295, and a rendering unit 297.

The characteristic information storage unit 293, which is one component of the rendering processing unit 290, may select one or more of different figure information, fonts for displaying text, patterns, colors, symbol marks, or expression line types according to the type and characteristics of the target object. The included display characteristic information is stored (S200), and according to the embodiment, a plurality of themes having different types and characteristics may also be differentiated according to each display characteristic information.

The characteristic information extraction unit 295 of the rendering processing unit 290, when an object object is input from the main control unit 280 (S210), is an expression characteristic corresponding to the input object object among the display characteristic information stored in the characteristic information storage unit 293. Information is extracted (S220).

When the selected main system information, which is a subject map selected by a user, is input from the main control unit 280 through the interfacing unit 270, the characteristic information extraction unit 295 of the present invention extracts the display characteristic information corresponding to the selected main system. It is preferably configured to.

When the corresponding display characteristic information is extracted as described above, the rendering unit 297 of the present invention generates a rendering object that renders the object object in a 2D or 3D form using the extracted display characteristic information (S245).

At this time, when vector information representing the target object is included in the spatial information (S230), a rendering object is generated by performing processing to convert the extracted expression characteristic information into a size and direction corresponding to the vector information. (S240).

As described above, when the rendering object is finally generated by the rendering processing unit 290 of the present invention and fed back to the main control unit 280, the main control unit 280 of the present invention generates merging data obtained by merging the rendering object into the reference data. Then, the generated merging data is transmitted to the user client 30 (S270).

In addition, the characteristic information extraction unit 295 of the present invention is configured to extract a plurality of expression characteristic information corresponding to each of the plurality of selected main systems when information on a plurality of selected main systems is input from the main control unit 280. In this case, in this case, the rendering unit 297 of the present invention generates a plurality of rendering objects using each of the extracted expression characteristic information.

When a plurality of rendering objects are generated as described above, the main control unit 280 of the present invention provides a plurality of merging data obtained by merging each of the plurality of rendering objects to the reference data to the user client, thereby allowing the user to generate specific city planning information. It is possible to check the data structured in various ways according to various thematic maps of the target object, contents, and surrounding environment as a GUI environment.

9, the main control unit 280 of the present invention specifically generates a common information extraction unit 281, a distance information calculation unit 283, a magnification information determination unit 285, a size adjustment unit 287, and merging data generation. It can be configured to include a portion 289.

First, when the main control unit 280 of the present invention performs merging processing for reference data and a rendering object, a plurality of subject maps stored in the reference data storage unit 260 correspond to request signals among map data for each. It is preferable to configure the map data (hereinafter referred to as 'selected map data') to merge together.

In this case, based on the corresponding map data, the administrative area boundary, the characteristic information of the target object, the location information, etc. can be configured to be displayed together, and furthermore, the rendering object representing the target object and the like together with these data It can be grouped and displayed to provide a more visible data environment through the GUI.

Specifically, the main control unit 280 of the present invention sets the selected map data as the lowest layer so as to be the basis of the final result data merging data, and sets the rendering object as the highest layer, but these lowest layers (selection maps) Data) is set so that the reference data is located in a middle layer between the top layer (rendering object).

That is, the main control unit 280 of the present invention constitutes each of the selected map data, the reference data, and the rendering objects as a composite layer having multiple hierarchical structures, and combines these layers by hierarchically overlapping the merging data. It can be configured to generate.

In the data corresponding to each layer of the specific merging data, tag information or link information indicating their own group may be provided, and in this case, each layer grouped through the tag information or the like may receive the tag information and the like. Can be subsequently confirmed.

In this configuration, new merging data can be generated more quickly and flexibly by selectively replacing one or more layers among layers included in specific merging data or combining additional layers.

In addition, in order to more effectively implement the matching relationship of each layer that is hierarchically combined, the common information extraction unit 281, which is one component of the main control unit 280, is commonly included in the reference data and the selection map data. Coordinate information of feature points (specific roads, buildings, facilities, etc.) is extracted. The extracted self-marking information may be coordinate information included in a GIS system or the like.

When each coordinate information is extracted in this way, the distance information calculating unit 283 of the present invention generates first distance information, which is a distance between coordinate information of a plurality of common feature points extracted from reference data, and is also extracted from the selected map data. Second distance information, which is a distance between coordinate information of the common feature point, is generated.

The magnification information determination unit 285 of the present invention calculates the separation value or ratio information between the first and second distance information, and generates magnification information of the selected map data by using the calculated ratio information.

When the magnification information of the selected map data is determined in this way, the size adjustment unit 287 of the present invention adjusts the size of the selected map data based on the determined magnification information, and finally the merging data generation unit 289 of the present invention is Using the resized selection map data, merging data is generated by a method such as layer overlapping as described above.

In this configuration, since the first and second distance information are respectively calculated from feature points representing the same object, and the size of the selected map data is determined using these calculated values, the environment of the selected map data can be simply processed at any time. It is possible to accurately match the coordinate environment of the reference data.

Although the present invention has been described above by way of limited examples and drawings, the present invention is not limited by this, and will be described below by the person skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the equal scope of the claims.

In the above description of the present invention, the first and second modifiers are only terms of a tool concept used to relatively distinguish components between each other, and thus are used to indicate a specific order, priority, and the like. It should be interpreted as not being a term.

The accompanying drawings and the like may be shown in a somewhat exaggerated form for emphasizing or emphasizing the technical contents of the present invention for the description of the present invention and the embodiments thereof, but the above-described contents and the matters illustrated in the drawings In view of this, it should be interpreted that it is obvious that various types of modification examples may be possible at the level of a person skilled in the art.

10: administrator client 20: external institution server
30: user client 40: external inspection server
100: information sharing system according to a first embodiment of the present invention
110: receiving unit 120: matching unit
121: standard data storage unit 122: element data extraction unit
123: Matching data generation unit 124: Alarm information generation unit
125: alarm information transmitting unit 126: inspection information receiving unit
127: Standard data request unit 128: Standard data update unit
130: raw data generation unit 140: DB storage unit
150: request information receiving unit 160: screening control unit
161: extraction unit 162: contrast determination unit
163: sorting unit 164: second sorting unit
165: subsequent preparation unit 166: variable data generation unit
167: first interface unit
170: data sharing unit 180: schedule processing unit
200: information sharing system according to a second embodiment of the present invention
210: spatial information storage unit 220: attribute information receiving unit
230: parsing unit 240: spatial information selection unit
250: data object creation unit 260: reference data storage unit
270: interfacing section 280: main control section
281: common information extraction unit 283: distance information computation unit
285: magnification information determination unit 287: size adjustment unit
289: merging data generation unit 290: rendering processing unit
291: object input unit 293: characteristic information storage unit
295: characteristic information extraction unit 297: rendering unit
298: registration processing unit

Claims (13)

A receiving unit for receiving n (n is a natural number greater than or equal to 1) -th basic information from the manager client, which includes spatial information for figure system or image-based urban planning information and attribute information for numerical or text-based urban planning information;
A matching determination unit for determining whether the spatial information and the attribute information included in the n-th basic information correspond to each other;
When spatial information and attribute information included in the n-th basic information correspond to each other, n (n is a natural number of 1 or more) th raw data by processing data in a standardized format and linking the spatial information and attribute information A low data generation unit for generating and generating time stamp information representing the period of the basic information and generating the valid period information of the basic information;
A DB storage unit that stores total data consisting of first to nth raw data, and stores identification information for multiple managers and authority information differentially granted for each of the plurality of managers in association with each other;
A request information receiving unit for receiving request information from a user client;
A selection control unit for selecting raw data corresponding to the request information from the total data;
A data sharing unit that provides the selected raw data to the user client; And
When the difference between the time stamp information and the current time information is within a standard setting value, information for requesting an extension confirmation is transmitted to both the corresponding manager client and the higher manager client, and a confirmation signal is sent from both the manager and the higher manager client. UPIS information sharing system based on time-series tracking and data matching, characterized in that it includes a schedule processing unit for extending and updating the validity period information included in the time stamp information only when is received. The method of claim 1, wherein the request information,
Includes date information of the city planning information that requires confirmation,
The selection control unit,
An extraction unit for extracting time stamp information included in each raw data constituting the total data;
A contrast determination unit that contrasts the extracted time stamp information with the date information; And
UPIS information sharing system based on time-series tracking and data matching, characterized in that it comprises a sorting unit for sorting raw data to which the time stamp information closest to the date information is assigned. According to claim 2, The selection control unit,
When there is a plurality of raw data to which time stamp information is within a reference time range based on before and after the date information, first raw data and first raw data, which are the closest raw data, respectively, based on before and after the date information, respectively. 2, further comprising a second sorting unit for sorting data,
The data sharing unit provides the selected first and second data to the user client, UPIS information sharing system based on time series tracking and data matching. According to claim 2, The selection control unit,
When there is a plurality of raw data to which time stamp information is within a reference time range based on before and after the date information, first raw data and first raw data, which are the closest raw data, respectively, based on before and after the date information, respectively. A second sorting unit for sorting 2 road data;
A subsequent preparation unit for determining whether the first and second raw data match each other; And
When the first and second raw data do not coincide with each other, a variable data generating unit for generating fluctuating data consisting of information that does not match with each other among spatial information and attribute information included in each of the first and second raw data is further included. and,
The data sharing unit,
When the first and second raw data match each other, one of the first and second raw data is provided to the user client,
When the first and second raw data do not coincide with each other, one of the first raw data or the second raw data and the fluctuation data are provided together to the user client, based on time series tracking and data matching. UPIS information sharing system. ◈ Claim 5 was abandoned when payment of the set registration fee was made.◈ According to claim 1, The mating judgment portion,
A standard data storage unit storing first standard data including standard map data for a plurality of subject maps, feature information for facilities, and reference location information for administrative area boundaries;
An element data extracting unit for extracting object data for the facility included in the n-th basic information, area information of the object data, coordinate information, and figure characteristic information; And
And a matching data generating unit generating matching or mismatching confirmation data of the n-th basic information by comparing the extracted element data with the first standard data,
The raw data generation unit UPIS information sharing system based on time series tracking and data matching, characterized in that the nth raw data is generated only when the matching confirmation data is generated. ◈ Claim 6 was abandoned when payment of the set registration fee was made.◈ The method of claim 5, wherein the mating judgment unit,
An alarm information generating unit generating alarm information for the mismatch confirmation data of the n-th basic information; And
UPIS information sharing system based on time series tracking and data matching, characterized in that it further comprises an alarm information transmission unit for transmitting the generated alarm information to a corresponding manager client. ◈ Claim 7 was abandoned when payment of the set registration fee was made.◈ The method of claim 5, wherein the mating judgment unit,
Further comprising a inspection information receiving unit for transmitting the n-th basic information to an external institution server or an external inspection server, and receiving the matching inspection information or mismatch inspection information of the n-th basic information from the external agency server or the external inspection server,
The raw data generation unit,
For the time series tracking and data matching, characterized in that the matching data generation unit generates the n-th raw data only when the matching confirmation data is generated and the matching inspection information is received from the external institution server or the external inspection server. UPIS information sharing system based. ◈ Claim 8 was abandoned when payment of the set registration fee was made.◈ The method of claim 7, wherein the mating judgment unit,
A standard data request unit that transmits a signal requesting transmission of new standard data to the external institution server or an external inspection server when the matching confirmation data or the mismatch confirmation data and the matching inspection information or the mismatch inspection information do not coincide with each other; And
UPIS information sharing system based on time series tracking and data matching, further comprising a standard data update unit for updating and storing the new standard data received from the external institution server or the external inspection server as the first standard data. The method of claim 1, wherein the raw data generation unit,
If k (k is a natural number of 2 or more and n or less), the m basic information is the same as m (1 is a natural number of 1 or more and k-1 or less), which is one of the k-1th basic information. UPIS information sharing system based on time-series tracking and data matching, characterized in that k-th raw data is generated only with link information of the m-th raw data generated using. The method of claim 1, wherein the raw data generation unit,
If k (k is a natural number between 2 and n and less) is closest to m (m is a natural number between 1 and k-1 and less), which is one of the k-1th basic information, the mth basic information Based on time-series tracking and data matching, characterized in that the k-th raw data is generated with the link information of the m-th raw data generated using information and the separation information consisting of the difference between the m-th basic information and the k-th basic information. UPIS information sharing system. The method of claim 10, wherein the data sharing unit,
When the raw data corresponding to the request information is composed of the link information and the separation information, time series tracking is provided to read the raw data corresponding to the link information, merge the read raw data and the separation information, and provide it to the user client And UPIS information sharing system based on data matching. delete delete

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