KR100946767B1 - Method to make a numerical map - Google Patents

Abstract

PURPOSE: A method for making a numerical map by modifying collection data about geographical marks and geographical information by a reference point is provided to conveniently make a numerical map. CONSTITUTION: A controller of a terminal device corrects basic numerical information using start position information, middle position information, and end position information. The controller of the terminal device wirelessly transmits the start position information, middle position information, and end position information to the outside through a transceiver. A controller of a GIS(Geographical Information System) server corrects basic numerical information using the start position information, middle position information, and end position information. The controller of the GIS server transmits the corrected correction numeric information to the terminal device through the transceiver.

Description

{Method to make a numerical map} by modifying collected data about features and geographic information by reference point

The present invention relates to a method of creating a digital map by modifying collected data for features and geographic information for each reference point.

The digital map means that digital maps are produced by digitally analyzing various topographical data obtained by surveying maps, aerial photographs, satellite images, etc. from existing analog paper maps. In general, the process of constructing a digital map is as follows. When the paper map is digitized or scanned to form a digital map, the paper map is converted into an actual coordinate system according to the user's purpose through coordinate transformation. After that, the attribute data is input to the numerical map that establishes the topological structure to grasp the inter-location and correlation between the spatial objects.

The digital maps produced in this way enable faster and more accurate map retrieval than paper maps, and are superior in information management and usability to support various planning and decision making.

However, since the attribute data input to the digital map is input through the aerial photograph and satellite image reading, it is difficult to guarantee the accuracy of the attribute data at 100%.

Therefore, the field survey is performed to ensure the accuracy of the digital map, the field surveyor collects data recording the photographs and the location of the site, and corrects the digital map based on the collected data.

However, the correction method as described above, because the on-site investigator must record the data manually in the field, a lot of inconvenience occurred.

The present invention has been invented to solve the above problems, it is possible to produce an accurate digital map, as well as to modify the collected data for the geographic features and geographic information to create a convenient digital map for each reference point To provide a method for creating a digital map.

The present invention for solving the above problems, the start position storing step of receiving the start position by the control unit of the terminal device 100 via the touch screen panel temporarily stored; The control unit of the terminal device receives the azimuth from the starting position to the intermediate position and the straight line distance from the starting position to the intermediate position through the touch screen panel, sets the intermediate position, and stores the intermediate position temporarily. Steps; The control unit of the terminal device receives the azimuth angle to the end position based on the intermediate position and the linear distance from the intermediate position to the end position through the touch screen panel, sets the end position, and stores the end position to temporarily store it. Steps; When the saving of the ending position is completed, the controller of the terminal device corrects the basic numerical information based on the temporarily stored starting position, the intermediate position, and the ending position information, and transmits the starting position, the intermediate position, and the ending position information through the transmitter / receiver. A correction / sending step of wirelessly transmitting to the outside; The control unit of the Geographical Information System (GIS) server receives the start position, the intermediate position, and the end position information from the terminal device via the transceiver of the GIS server, and the base position, the intermediate position, and the end position information are used as basic parameters. And a numerical information correction step of correcting the numerical information and transmitting the corrected numerical information corrected through the transceiver unit to the terminal device.

According to the present invention, the map can be corrected by visually confirming the feature, and thus, accurate digital map can be produced, and the terminal device can be used to conveniently create the digital map.

Hereinafter, with reference to the accompanying drawings will be described in detail.

1 is a block diagram showing a method for creating a digital map according to the present invention, Figure 2 is a view showing a terminal device used in the method for creating a digital map according to the present invention, Figure 3 FIG. 1 is a view illustrating a touch screen panel used in a method of creating a numerical map according to the present invention. Referring to FIGS. 1 to 3, a terminal device and a GIS server used in the present invention will be described below.

First, the terminal device 100 used in the present invention, the body 110, the distance measuring mechanism 120 is installed on the body 110, the compass 130 is installed on the upper portion of the body 110, The touch screen panel 140 installed on the upper portion of the body 110, the controller 150 for controlling the operation of the touch screen panel 140, the GPS sensor (GS) installed on the body 110, the controller 150 It is composed of a transmission and reception unit 160 is controlled by the operation.

The body 110 includes a support 111, a wheel 112 installed below the support 111, and a handle 113 installed above the support 111. At this time, the handle portion 113, the tip is rounded to facilitate the operator to hold.

The distance measuring mechanism 120 is a conventional one for measuring the rotation angle or the number of revolutions of the wheel 112 and indicating it to the outside. The distance measuring mechanism 120 is generally used for a distance measuring device called a working distance measuring device. It is installed between the support 111 and the wheel 112.

The compass 130 is a conventional one that can confirm the orientation, is installed in the handle portion 113 of the body (110).

The touch screen panel 140 inputs numerical information and outputs corrected numerical information from the controller 150. In this case, the touch screen panel 140 includes a map menu 141 indicating a map, a start / end menu 142 for starting or ending numerical information correction, and a start position menu for designating a start point of a path to be newly created. 143, an intermediate position menu 144 for inputting a movement route from the start position to an intermediate position, an end position menu 147 for inputting a movement route from the intermediate position to the end position, and a direction to be moved An azimuth adjustment menu 145 for inputting and a distance value adjustment menu 146 for inputting the moved distance value are provided.

On the other hand, the numerical information includes coordinate information, attribute information, and route information.

The coordinate information includes coordinate values for polygons that classify regions constituting the digital map according to attributes. In this case, the coordinate information may be stored by mapping to the region name stored in the numerical map or the map information of the corresponding region. The coordinate value of the polygon refers to the coordinate value of a plurality of nodes constituting the polygon, and the interval of the plurality of nodes is determined by the digital map maker when generating map information and attribute information by analyzing and reading image data. Can be set.

The attribute information may be stored by mapping to a region name or map information corresponding to the region name stored in the numerical map. Attribute information represents information of a specific area including residential area, agricultural area, factory area, commercial area, forest area, and wetland area, and is usually analyzed and read from image data such as survey map, aerial photograph, satellite image, etc. Can be. In addition, the attribute information may be classified for each attribute by a polygon generated by a plurality of nodes, and the classification for each attribute may be an area configuring the digital map.

The route information is a movement route that is read from a digital map generated by a survey map, aerial photographs, satellite images, and the like, and is mapped to map information of a region corresponding to a region name or region name stored in a numerical map. Can be. The route information is preferably made of a combination of coordinate values.

The map menu 141 is displayed on the right side of the touch screen panel 140 to show a map.

The start / end menu 142 is displayed on the left side of the touch screen panel 140 and starts or ends numerical correction by an external touch.

The start position menu 143 appears at the bottom of the start / end menu 142 and allows a start position to be input to the map menu 141 through a touch from the outside.

The intermediate position menu 144 appears at the bottom of the start position menu 143, and allows a movement path from the start position to the intermediate position through a touch from the outside.

The end position menu 147 appears at the bottom of the intermediate position menu 144 and allows a movement route from the intermediate position to the end position through a touch from the outside.

The azimuth adjustment menu 145 appears on the lower right side of the intermediate position menu 144, and allows the terminal device 100 to input the azimuth to be moved through a touch from the outside.

The distance value adjustment menu 146 appears at the bottom of the azimuth adjustment menu 145 and allows the terminal device 100 to input a distance moved by a touch from the outside.

The control unit 150 is installed in the handle 113 of the body 110, receives the position information from the GPS satellites (S) and outputs the video material through the self-stored basic numerical information and position information, the transmission and reception unit When correction numerical information is input from 160, the stored basic numerical information is updated.

The GPS sensor GS is installed in the handle 113 of the body 110, and is operated and controlled by the controller 150 to receive position information from the GPS satellite S.

The transmitting and receiving unit 160 is installed in the handle 113 of the body 110, the operation is controlled by the controller 150, and receives the position information from the GPS satellite (S) and the correction numerical information from the outside And wirelessly transmits the corrected start position, the intermediate position, and the end position information to the outside.

The GIS server (Geographical Information System Server) 200 transmits the correction numerical information to the terminal device 100 and receives the start position, the intermediate position, and the end position information from the transmission / reception unit 160 of the terminal device 100. The transmission and reception unit 210, a control unit 220 for operating the control unit 210, and the operation control by the control unit 220, and a storage unit 230 for storing numerical information.

In this case, the controller 220 compares the start position, the intermediate position, and the end position information received from the transceiver 210 with the basic numerical information stored in the storage 230, and the basic value stored in the storage 230. Correct the information.

On the other hand, the controller 220 receives the start position, the intermediate position, and the end position information from the plurality of terminal devices 100 active in other regions, corrects the basic numerical information of the storage unit 230, and corrects The corrected numerical value information is wirelessly transmitted to the outside via the transmission / reception unit 210 so that the numerical information of the plurality of terminal devices 100 is corrected.

Hereinafter, a method for creating a digital map according to the present invention will be described.

4 is a flowchart illustrating a method for creating a digital map according to the present invention, and FIGS. 5 to 12 are operation diagrams for illustrating a method for creating a digital map according to the present invention, with reference to FIGS. 4 to 12. Referring to the method of creating a digital map using a terminal device and a GIS server according to the present invention.

First, the operator arriving at the site to correct the numerical information turns on the terminal device 100, so that the screen of the touch screen panel 140 of the terminal device 100 as shown in FIG.

Thereafter, when the worker touches the start / end menu 142, a map correction screen is displayed as shown in FIG. At this time, the GPS position P1 confirmed through the GPS device is displayed on the map of the map menu 141 in bold.

On the other hand, the GPS device there is an error, it may not be able to indicate the exact position of the terminal device 100 on the map of the map menu 141.

That is, as shown in FIG. 5, the terminal apparatus 100 may have a different position from the actual position P2 and the GPS position P1.

(1) Save start position

At this time, the operator touches the start position menu 143 and then touches the actual position P2 on the map shown in the map menu 141. Then, when the operator touches the start position menu 143 again, the display indicating the GPS position P1 disappears, and the start position IP1 is displayed in bold as shown in FIG. 6.

(2) intermediate position storage step

Thereafter, when the intermediate position menu 144 is touched, the azimuth adjustment menu 145 and the distance value adjustment menu 146 are displayed on the screen as shown in FIG. 7. At this time, the numerical values of the azimuth adjustment menu 145 and the distance value adjustment menu 146 indicate '0'.

On the other hand, in the above state, the operator checks the compass 130 of the terminal device 100, to confirm the orientation.

Thereafter, the operator touches the azimuth adjustment menu 145 to set the azimuth angle to which the terminal device 100 moves, and then moves to the intermediate position while pushing the terminal device 100.

At this time, when the worker pushes the terminal device 100, the wheel 112 of the terminal device 100 is rotated, the distance measuring mechanism 120 measures the number of revolutions of the wheel 112, the terminal device 100 The travel distance of is shown to the outside.

On the other hand, when the worker moves the terminal device 100 to an intermediate position, the distance moved to the distance measuring mechanism 120 is displayed.

In this case, when the operator touches the distance value adjustment menu 146 and inputs the distance value of the moving distance displayed on the distance measuring device 120 to the terminal device 100, the result is as shown in FIG. 8.

Thereafter, when the intermediate position menu 144 is touched, the intermediate position IP2 is displayed as dark as shown in FIG. 9, and the numerical values of the azimuth adjustment menu 145 and the distance value adjustment menu 146 become '0', The azimuth adjustment menu 145 and the distance value adjustment menu 146 disappear so that azimuth and distance values cannot be input.

At this time, if there are a plurality of inverted intermediate positions, the intermediate position storing step is repeated.

(3) End position save step

Thereafter, when the end position menu 147 is touched, the azimuth adjustment menu 145 and the distance value adjustment menu 146 are displayed in a state capable of receiving an azimuth and distance value as shown in FIG. 10.

Subsequently, after inputting an azimuth angle to the terminal device 100, the terminal device 100 is moved to an end position in the same manner as described above, and the distance value to the moved position is controlled through the distance value adjustment menu 146. The input is as shown in FIG.

In this case, when the end position menu 147 is touched, the end position is displayed in dark as shown in FIG. 12.

(4) Correction / distribution stage

Thereafter, when the start / end menu is touched, the controller 150 corrects the existing numerical information based on the stored start position, middle position, and end position information as described above, and adjusts the start position, middle position, and end position information. Wireless transmission and reception via the transmission and reception unit 160.

(5) Numerical Information Correction Step

At this time, the transceiver 210 of the GIS server 200 installed in a separate control room receives the start position, the intermediate position, and the end position information from the transceiver 160, and the controller 220 is the transceiver 210 The starting position, the intermediate position, and the end position information received from) are compared with the basic numerical information stored in the storage unit 230 to correct the basic numerical information of the storage unit 230.

On the other hand, the GIS server 200 receives the start position, the intermediate position, and the end position information from a plurality of terminal devices 100 active in other regions, corrects the basic numerical information of the storage unit 230, The corrected correction numerical information is wirelessly transmitted to the outside via the transceiver 210.

At this time, the terminal device 100 located in various places receives the correction numerical information from the GIS server 200, and corrects the existing numerical information.

1 is a configuration diagram for illustrating a method of creating a digital map according to the present invention;

2 is a view showing a terminal device used in a method for creating a numerical map according to the present invention;

3 is a view showing a touch screen panel used in a method for creating a numerical map according to the present invention;

4 is a flowchart illustrating a method of creating a digital map according to the present invention;

5 to 12 is an operation diagram for showing a method for creating a numerical map according to the present invention.

-Explanation of terms for main parts of attached drawings-

100; Terminal device 110; body

120; Distance measuring instrument 130; Compass

140; A touch screen panel 150; Control

160; A transceiver 200; GIS Server
210; A transceiver 220; Control
230; Storage GS; GPS sensor

Claims (1)

A starting position storing step of receiving and temporarily storing a starting position IP1 through the touch screen panel 140 in the control unit 150 of the terminal apparatus 100; From the control unit 150 of the terminal device 100 via the touch screen panel 140, the azimuth angle from the start position IP1 to the intermediate position IP2 and the start position IP1 to the intermediate position IP2. An intermediate position storing step of setting an intermediate position (IP2) by receiving an input of a straight line distance and temporarily storing it; From the control unit 150 of the terminal device 100 via the touch screen panel 140, the azimuth angle to the end position (IP3) based on the intermediate position (IP2) and the intermediate position (IP2) to the end position (IP3) An end position storing step of receiving an input of a straight line distance, setting an end position IP3, and temporarily storing it; When the saving of the ending position is completed, the controller 150 of the terminal device 100 corrects the basic numerical information based on the stored starting position, the intermediate position, and the ending position information, and transmits the starting position through the transmitting and receiving unit 160. A correction / sending step of wirelessly transmitting the intermediate position and the end position information to the outside; The controller 220 of the GIS server 200 receives the start position, the intermediate position, and the end position information from the terminal device 100 via the transceiver 210 of the GIS server 200, and includes the start position, A numerical information correction step of correcting the basic numerical information based on the intermediate position and the end position information, and transmitting the corrected numerical information corrected by the transmitting / receiving unit 210 to the terminal device 100; Method for creating a digital map by modifying the collected data for the feature and geographic information for each reference point comprising a.

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