KR101399351B1 - Operation recording media apply system of visualization-based management system for urban planning - Google Patents

Abstract

The present invention relates to an operation recording media-applying system of a visualization-based management system for urban planning, and more particularly to an operation recording media-applying system of a visualization-based management system for urban planning, which is improved to effectively manage a mega-project such as city reproduction. According to the present invention, the mega-project can be effectively managed through a visualization interface and the processing of the information input through the visualization interface.

Description

TECHNICAL FIELD [0001] The present invention relates to a visualization-based urban planning management system,

[0001] The present invention relates to a system for applying an operating recording medium of a visualization-based urban planning management system, and more particularly, to a visualization-based urban planning management system for efficiently managing a mega- .

As is well known, unlike a single project, such as the construction of a single facility, a city regeneration or a new city plan has the character of a mega project, consisting of projects of different character.

In particular, mega-projects such as urban regeneration tend to face more risks than single projects because of the involvement of stakeholders with diverse interests, such as local governments, developers, residents and users, from an early stage.

However, there is a problem that the participation of stakeholders lacking expertise is not smooth. In the worst case, even if minor design changes are made, the project is delayed indefinitely due to the protest.

Therefore, for the mega project, it is necessary to provide timely information according to the progress and collect opinions about it.

However, the conventional urban planning management is dominated by the developer or the local government, and there is always a problem that conflicts are caused by closed decision making.

In addition, the city planning management does not build a new building in a prescribed area but establishes a plan in several alternatives, and related to geographical information and detailed information about an individual building. .

That is, conventionally, the program management of the mega project can not be performed.

Program management means managing multiple projects in an organized way to gain benefits not obtainable from individual management.

In order to improve this, "Visualization-based urban planning management system and recording medium therefor" by Korean Patent Registration No. 10-1258006 (Apr. 18, 2013) has been disclosed, but a more systematic management system is required have.

Korea Patent Registration No. 10-1258006 (March 31, 2013) "Visualization-based Urban Planning Management System and Recording Medium"

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned prior art requirements, and it is an object of the present invention to provide a visualization-based urban planning management system capable of effectively managing a mega- There is a main purpose in providing.

The present invention provides a visualization interface including a modeling area and an information input / output area for allowing a project manager to input information for defining a business plan of the city plan, A visualization interface providing unit for providing visualization interface and an input information processing unit for processing information inputted through the visualization interface; And a database for storing legal information and district-specific information for the city planning, wherein the district-specific information includes at least one of information for distinguishing a commercial district, a residential district, an industrial district, a green district, Wherein the input information includes at least one of land subsection information and mass related information related to a unit facility, wherein the visualization interface providing unit provides the visualization interface to the modeling area of the visualization interface, Wherein the input information processing unit displays a map of a site to be planed, the input information processing unit including an area dividing unit dividing the land into zones or districts by using a line input by the project manager, And an area calculating section for calculating the area Wherein the visualization interface providing unit includes a road line for partitioning the site into a plurality of zones and a subline for dividing each of the plurality of zones into a plurality of zones, And the management server activates the project information management system for the geographic information system and the unit facilities through the network so as to enable the input of the subline if the selection of one of the plurality of zones is performed Connected; Wherein the visualization interface providing unit displays the ground drawing in cooperation with the geographic information system and displays unit facility information in cooperation with the project management information system; Wherein the input information processing unit further comprises a mass generation unit for generating a mass of unit facilities on the partitioned area or the earth using the mass related information inputted by the project manager; Wherein the mass related information includes at least one of a floor area, a floor width, a ground water number, a ground water number, an area per floor, a floor height, and a main usability; Wherein the mass generation unit separately stores applications for each unit and each floor using the application information input by the project manager; The geographic information system is constructed by aerial photographing using an automatic photographing system equipped with an automatic photographing system, a GPS receiving antenna, and an MEMS inertial measurement unit (INU), and an operation cylinder is fixed to the bottom of the airship body And a pair of guide rails are provided on both sides of the operating cylinder with the operating cylinder interposed therebetween. One end of the pair of guide rails is rotatably hinged to the airship main body, A fixed link is fixed to both sides of the operating cylinder, a first rotary arm is connected to the fixed link, a floating link is fixed to an end of the first rotary arm, and a second rotary arm is fixed to the floating link, And the end of the operating rod is linked to the end of the second rotary arm, and the flow link is connected to the upper Wherein a plurality of pairs of connection structures of the first and second rotary shafts and the moving links are repeatedly installed, and a camera is fixed to a final stage. System.

According to the present invention, there is an advantage that a mega project can be efficiently managed through processing of a visualization interface and information inputted through the interface.

1 is a block diagram of a city planning management system according to a preferred embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a management server.
3 is a detailed block diagram of an input information processing unit according to an embodiment of the present invention;
Figures 4-11 illustrate examples of visualization interfaces in accordance with a preferred embodiment of the present invention.
12 and 13 show a further embodiment according to the invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention uses the above-mentioned prior-art patent No. 1258006 as it is. Therefore, all of the features of the device configuration described below are those described in Patent No. 1258006. [

However, the present invention is characterized in that the additional embodiment portion in which the specific configuration is partially improved in order to achieve the object of the configuration disclosed in the above-mentioned Japanese Patent No. 1258006 is the most essential configuration feature.

Therefore, the device structure, characteristics, and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent No. 1258006, and the structure related to the main features of the present invention will be described in detail at the rear end.

1, the city planning management system according to the present embodiment may include a management server 100 and a database 102. The server 100 may be a geographic information system (Geographic Information System) A GIS 104, a Project Management Information System (PMIS) 106, and one or more user terminals 108.

Here, the network may include both wired and wireless Internet, mobile communication network, broadcasting network, and satellite network.

The management server 100 according to the present embodiment provides an interface for inputting non-quantitative data (for example, legal information).

In addition, the management server 100 stores the information input through the interface in the database 102. [

The management server 100 can receive from the user terminal 108 the requirements of various stakeholders having interests in the plan in addition to the project manager who establishes the city plan.

The interested parties can access the management server 100 through the user terminal 108 on a web basis, browse the city planning information, and input opinions on the city planning information.

The database 102 according to the present embodiment can store information on each district, unit facility information, and the like in addition to the above-described requirements and non-quantitative data.

The information by district may include information on the division of commercial districts, residential districts, industrial districts, green districts, and requirements of each district (restriction information on buildings by districts such as the floor area ratio and height of each district) Culture, business, and the like.

In addition, the management server 100 provides a visualization-based service to the project manager.

The visualization-based service will be described in detail below.

2, the management server 100 according to the present embodiment includes a visualization interface providing unit 200, an input information processing unit 202, a network communication unit 204, a business expense calculating unit 206, (208). ≪ / RTI >

The visualization interface providing unit 200 provides an interface for a project manager to input information for defining a business plan of a city plan and to visualize and define the business, and the input information processing unit 202 processes A result is displayed.

According to a preferred embodiment of the present invention, in order to define a city planning project, the management server 100 may receive geographical information on a site to be a target of the city planning from the geographical information system 104 connected via a network .

The visualization interface providing unit 200 displays a site map (business site) to be a target of the city planning based on the geographical information received from the geographical information system 104 through the network communication unit 204.

The project manager can input various information through the visualization interface displayed on the screen, and the input information processing unit 202 processes the input information.

3 is a detailed block diagram of an input information processing unit according to an exemplary embodiment of the present invention.

3, the input information processing unit 202 may include a land dividing unit 300, an area calculating unit 302, and a mass generating unit 304.

In general, business sites for urban planning can be layered into zones, districts, etc., and the project manager can divide the output site on the interface.

The site dividing unit 300 divides the site based on the information input by the project manager.

For example, when the project manager inputs a road line, the site dividing unit 300 divides the site into a plurality of zones using road lines, and when a subline is input for one zone, Is divided into a plurality of regions.

In addition, the project manager can designate its use (residential / commercial / industrial / green) for the compartment or district, and the site compartment 300 stores usage information inputted by the administrator.

As described above, when the area is divided into a plurality of zones or zones, the area calculating unit 302 calculates the area of each zone and the zone based on the geographical information.

After the plot is completed, the project manager can outline the mass of the building.

According to an embodiment of the present invention, when a project manager selects a predetermined location on a site and inputs mass-related information such as a floor area, a width, and the number of floors, The unit 304 generates a three-dimensional mass for the unit facility based on the information input by the manager.

According to a preferred embodiment of the present invention, the detailed information on the unit facilities can be received from the project management information system 106.

The visualization interface providing unit 200 may output the unit facilities received from the project management information system 106 on the visualization interface as described above instead of the mass generated by the administrator.

The mass generation unit 304 stores the facility use and the floor usage in the mass according to the usage designation inputted by the project manager. The visualization interface providing unit 200 displays the designated use by color or the like.

As described above, after completion of the earth block and mass generation, the business ratio calculating unit 206 and the business period calculating unit 208 calculate the business cost based on the ground partition information and mass generation information input as described above Calculate the project cost and project duration.

In addition, the business expenses calculation unit 206 and the business period calculation unit 208 can calculate the business expenses and the business period using the additional related information.

Here, the information related to the calculation of the business expense and the business period may include the estimation history and the unit cost data of the previous similar case.

According to another embodiment of the present invention, the business expense calculating unit 206 and the business period calculating unit 208 may calculate the business expense and the business period in conjunction with the business expense predicting system and the business period predicting system connected through the network.

4 to 11 are diagrams illustrating exemplary screens of a visualization interface according to a preferred embodiment of the present invention.

The configuration of the visualization interface according to the present embodiment will be described in detail with reference to FIGS. 4 to 11. FIG.

4, the visualization interface according to the present embodiment may include a modeling area 400 and an information input / output area 402. [

In the modeling area 400, a ground plan to be an object of the city planning is displayed.

The ground plan displayed in the modeling area 400 may be data stored in the database 102.

The administrator can perform the land compartment on the modeling area 400.

When the manager selects the menu 404 for road line input and inputs the road line 406 on the ground drawing, the ground is automatically partitioned into a plurality of zones along the road line 406. [

In the information input / output area 402, a plurality of zones divided according to the input of the road line 406 are displayed, and the area calculated by the area calculation unit 302 is displayed.

Since the earth map according to the present embodiment includes geographical information together, the calculated area may be the actual area.

In addition, the administrator can re-partition each zone.

As shown in FIG. 5, when the administrator selects one of the plurality of zones, only the selected zone can be activated.

After the zone activation, when the administrator selects the menu 500 for subline entry and enters the subline 502, the zone is divided into a plurality of zones along the subline 502, and the information input / output area 402 ) Shows the area of each district.

Referring to FIG. 6, the administrator can designate the usage of each district, and each district can be classified into different colors according to the designated use.

The usage specification may be performed by a predetermined menu existing on the visualization interface, but not limited thereto, and may be performed through operation of a mouse (right-click and selection of a mouse).

7 is a diagram illustrating a process of generating a mass through a visualization interface according to an embodiment of the present invention.

When the administrator selects a predetermined region in the modeling region 400, only the selected region is activated.

When the manager selects the mass generation menu 700 in the district activation state, an information input window for mass production of the unit facilities is displayed in the information input / output area 402. [

The information input window according to this embodiment includes an area for inputting a floor area, a floor width, a ground water number, a ground water number, a floor height, a main use degree, and the like.

Usability can be divided into residential, commercial, cultural, business, and public.

The mass 700 of the unit facility is generated according to the information inputted by the manager.

As shown in FIG. 8, if the manager selects the public, a mass of a single layer is generated, and the manager can specify the detailed purpose of the public-purpose facility.

As described above, when the administrator selects the public use, the floor area, the floor width, the number of ground layers, the number of ground water layers, and the input area of the floors are inactivated, and a mass of a single layer can be generated according to the area and width directly input by the administrator have.

9, the administrator may designate the usage for each floor for the mass displayed in the modeling area 400. [

Through the above process, as shown in Fig. 10, a site to be a city planning is divided into a plurality of zones and districts, and business definition information including a plurality of unit facility masses is generated.

After the business definition information is generated, as shown in FIG. 11, the information for outputting the business period and the business cost can be displayed in the information input / output area 402.

According to one embodiment of the present invention, the business expense estimation process is a result of interaction of the cost data of the parameter-based volume model and the business expense management module.

This includes assumed unit costs and variables for cost estimates. The administrator can reconcile the variables within the business expense management module and reconfirm the business expense according to the adjusted variables in the information input / output area (402).

The cost estimation according to the present embodiment has advantages due to the parameter modeling concept.

In this embodiment, the cost estimate can be changed in real time when the geometry model values of the building (mass) or the space (zone / district) are changed.

According to the present embodiment, the business definition information completed through the sequential process can be stored as one alternative information, and masses having different properties, division into different regions and different attributes according to the administrator's selection can be generated, Alternative information may also be generated.

In addition, after one or more business definition information is generated, the interested parties can access the management server 100 through the network to confirm the business definition information, and can express their opinions.

The additional embodiment according to the present invention is configured to perform periodic digital map update through the INS mounted on the airship for constructing the geographical information system (GIS)

12, in the INS system mounted on the airship, the X axis is the longitudinal axis (roll) of the air vehicle, the Y axis is the right wing (pitch), and the Z axis is the downward (yaw) rotation factor.

At this time, the airship is equipped with an automatic photographing system, a GPS receiving antenna, and an inertial navigation unit (INU) using a micro-electromechanical system (MEMS). MEMS INUs are generally well known.

The three-dimensional position (X0, Y0, Z0) of the camera focus mounted on the GPS / INS airship is calculated from the three-dimensional position where the signal received through the GPS antenna is calculated and the three- The GPS / INS spatial information is acquired together with the instant when the image data is acquired.

The acquired GPS / INS data is input to the automatic photographing system. Then, the GPS / INS data is entered into the course (a course) to acquire new image data and spatial information while moving along the planned three- do.

13, a camera 910 for capturing an image is installed in the airship main body 900. The camera 910 is configured to be able to control height and height for avoidance design with an interferer and magnification control do.

An operation cylinder 920 is fixed to the bottom of the airship main body 900 and a pair of guide rails 930 are installed on both sides of the operation cylinder 920.

In addition, the operating cylinder 920 is configured to allow the operating rod 922 to protrude and retract.

In addition, one end of the pair of guide rails 930 is fixed to the hover body 932 in a rotatable manner with respect to the airship body 900.

A fixed link 924 is fixed to both sides of the operation cylinder 920 and a first rotary arm 940 is connected to the fixed link 924.

A second link member 942 is fixed to an end of the first link member 940 and a second link member 950 is connected to the link member 942 in a direction substantially perpendicular to the first link member 940, Shape.

On the other hand, the end of the operation rod 922 is linked to the end of the second rotary arm 950.

At this time, the first and second rotary shafts 940 and 950 are symmetrically installed on both sides of the operation cylinder 920.

In addition, the floating link 942 is constrained to the guide rail 930 and is configured to slide along the guide rail 930.

Accordingly, the guide rails 930 are fixed to the hinges 932 and 932 so that the angles formed by the first and second rotary arms 940 and 950 become larger and smaller as the flow link 942 slides. ), And it is accepted that it repeats that it is Oh, and it is done.

The first rotary arm 940 is repeatedly installed at the end of the second rotary arm 950 and the flow link 942 is connected to the end of the first rotary arm 940, A large number of pairs of rotating rocks are provided.

At the final stage, the camera 910 is fixed.

Particularly, a laser oscillator 960 is installed in a part of the camera 910, and a receiver (not shown) capable of receiving the laser oscillator 960 at a specific point on the ground plane is provided for producing a digital map through GIS. It is constructed so that the altitude difference according to the height can be more accurately measured through communication.

That is, when the correlation between the reception time of the camera 910 and the receiver is calculated according to the distance from the airship main body 900 and the calculation is made in consideration of the magnification of the digital map, an accurate altitude difference It can be confirmed.

As described above, according to the present invention, the height of the camera 910 can be adjusted by separating the camera body 910 from the body of the airship 900, thereby making it possible to easily obtain accurate images and to calculate an accurate altitude difference do.

Moreover, this information is very efficient for 3D digital mapping.

100: management server 102: database
104: GIS 106: PMIS
108: User terminal

Claims (1)

A visualization-based urban planning management system for a mega-project including a plurality of unit facilities, comprising: a modeling area for allowing a project manager to input information for business definition of the city plan and confirm processing results of the input information; A visualization interface providing unit providing a visualization interface including a region and an input information processing unit processing information input through the visualization interface; And a database for storing legal information and district-specific information for the city planning, wherein the district-specific information includes at least one of information for distinguishing a commercial district, a residential district, an industrial district, a green district, Wherein the input information includes at least one of land subsection information and mass related information related to a unit facility, wherein the visualization interface providing unit provides the visualization interface to the modeling area of the visualization interface, Wherein the input information processing unit displays a map of a site to be planed, the input information processing unit including an area dividing unit dividing the land into zones or districts by using a line input by the project manager, And an area calculating section for calculating the area Wherein the visualization interface providing unit includes a road line for partitioning the site into a plurality of zones and a subline for dividing each of the plurality of zones into a plurality of zones, And the management server activates the project information management system for the geographic information system and the unit facilities through the network so as to enable the input of the subline if the selection of one of the plurality of zones is performed Connected; Wherein the visualization interface providing unit displays the ground drawing in cooperation with the geographic information system and displays unit facility information in cooperation with the project management information system; Wherein the input information processing unit further comprises a mass generation unit for generating a mass of unit facilities on the partitioned area or the earth using the mass related information inputted by the project manager; Wherein the mass related information includes at least one of a floor area, a floor width, a ground water number, a ground water number, an area per floor, a floor height, and a main usability; Wherein the mass generation unit separately stores applications for each unit and each floor using the application information input by the project manager;
The geographic information system collects and constructs information by aerial photographing using an automatic photographing system equipped with an automatic photographing system, a GPS receiving antenna, and an MEMS inertial measurement unit (INU) And a pair of guide rails are provided on both sides of the operating cylinder with the operating cylinder interposed therebetween. A working rod is projected and retracted into the operating cylinder, and one end of the pair of guide rails is rotated Wherein a fixed link is fixed to both sides of the operating cylinder, a first rotating arm is connected to the fixed link, a floating link is fixed to an end of the first rotating arm, , The end of the operating rod is linked to the second rotary arm, the flow of the flow Wherein a plurality of pairs of the connecting structures of the first and second rotary shafts and the moving links are repeatedly installed and the camera is fixed to the final stage. Planning management system.

Images