KR101051141B1 - The apparatus of gridgml - Google Patents

Abstract

PURPOSE: A Grid-GML(Geography Markup Language) materialization unit for visibly showing smart phone map and real-time map transmission are provided to efficiently supply a GML map to a smart phone terminal on a real time. CONSTITUTION: A Grid-GML type map server(100) transmits a fractional area that includes an active area when a map requests from a Grid-GML type smart phone device(200) and a GML map visibility. The Grid-GML type map server manages to map data that is transmitted to the Grid-GML type smart phone device by giving ID. The Grid-GML type Smart phone device switches from a WGS84 coordinate that is received from the GPS to a TM coordinate. The Grid-GML type Smart phone device requests a map from the Grid-GML type map server. The Grid-GML type smart phone device visibly shows a transmitted map from the Grid-GML type map server by fiducially re-dividing about a display region.

Description

ＧｒｉｄＧＭＬ implement for real-time map transmission and visualization of smartphone maps {THE APPARATUS OF GRIDGML}

The present invention relates to a GridGML implementation for real-time map transmission and smartphone map visualization for implementing GridGML to efficiently supply and visualize a GML map to a smartphone device.

At present, LBS-based map data is provided in a different format for each development company, making it impossible to freely use, integrate, and apply the map data.

Therefore, a common exchange format standard has been required. In the Open GIS Consortium (OGC), an XML (extensible markup language) means geographic encoding for the transmission and storage of geographic information including geographic ideas with spatial or non-spatial attributes. ) Based GML (Geography Markup Language) specification.

GML is highly scalable and flexible, enabling more efficient data processing and management. However, GML, which is a standard specification, is an ASCII code format and has a disadvantage in that a file is heavier than a map format of a conventional binary format.

This requires high system requirements for data processing and management. Especially, services to mobile phones are not easy to transmit maps due to traffic present on the network. Performance limitations of mobile phone devices for processing maps There was a difficult problem to overcome.

In particular, the existing LBS uses the map data to be mounted on the smartphone device, which requires manual upgrades frequently, in the light of recent changes in roads and buildings, causing inconvenience to users. There was a problem letting.

Patent Application Publication No. 10-0462299 (August 17, 2004)

In order to solve the above problems, the present invention can divide and manage the GML map based on the display size of the GridGML smartphone device for quick response to the GML map request of the GridGML map server. The GML can be lightened by extracting only the parts necessary for the visualization of the data and compressing the data, thereby efficiently supplying the Geography Markup Language (GML) map to GridGML smartphone devices in real time. The purpose of the present invention is to provide a GridGML implementation for real-time map transmission and smartphone map visualization that can maintain map transmission time without racking by repartitioning and transmitting the map dense area.

GridGML implementation for real-time map transmission and smartphone map visualization according to the present invention to achieve the above object

GridGML, which visualizes GML (Geography Markup Language) maps and transmits the divided area including the active area when there is a map request from the GridGML smartphone device, and assigns and manages the map data transmitted to the GridGML smartphone device. Type map server,

Achieved by converting WGS84 coordinates received from GPS into TM coordinates and making a map request to GridGML map server, and gridGML smartphone device which re-divides and visualizes the map transmitted from GridGML map server based on display area. do.

As described above, in the present invention, the GML map can be divided and managed based on the display size of the GridGML smartphone device, and the filtering process of extracting only the parts necessary for visualization to the GridGML smartphone device and compressing the data is performed. GML can be made lighter, which enables efficient supply of Geographic Markup Language (GML) maps to GridGML smartphone devices in real time. It can have a good effect.

1 is a block diagram showing the components of a GridGML implementation for real-time map transmission and smartphone map visualization according to the present invention;
2 is a block diagram showing the components of a GridGML type map server according to the present invention;
3 is a block diagram showing the components of a GridGML smartphone device according to the present invention;
4 is a diagram illustrating an example of assigning and managing IDs to map data transmitted from a GridGML type map server to a GridGML type smartphone device according to the present invention;
5 is a diagram illustrating a GPS reception and coordinate conversion process in a GridGML smartphone device according to the present invention;
FIG. 6 is a diagram illustrating visualization of a Geography Markup Language (GML) map through a GridGML map server according to the present invention; FIG.
FIG. 7 is a diagram illustrating re-segmenting and visualizing a map transmitted from a GridGML map server through a GridGML smartphone device 200 based on a display area.

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

1 is a block diagram showing the components of a GridGML (Grid Geography Markup Language) implementation device for real-time map transmission and smartphone map visualization according to the present invention, which is a GridGML map server 100 ), A GridGML type smartphone device 200.

First, the GridGML type map server 100 according to the present invention will be described.

The GridGML type map server 100 transmits a divided area including an active area when visualization of a Geographic Markup Language (GML) map and a map request is received from a GridGML type smart phone device, and a map transmitted to the GridGML type smart phone device. The ID is managed by assigning data, which is illustrated in FIG. 2, which is a GML parser 110, a map visualization component 120, an event manager 130 for a server, and a map server manager. 140, a GML light-weight module 150.

The GML parser 110 analyzes the GML map and extracts the attributes. This induces GML parsing through the XML parser.

Here, the XML parser has a feature of increasing memory consumption and CPU resource utilization in a SAX manner.

The GML parser according to the present invention inherits the XML parser class from the standard library module provided by SAX to generate the GML parser class.

The GML parser class defines each element based on the GML schema and invokes a handler in the form of an event to process each element.

The GML parser class handles tagging elements in key / value format. Where key is tag name [<,>, omit] and value is function name to execute start tag and end tag.

For example, if the tag is <gml id = "2" type = "simple">, the GML parser class calls gml_start_tag [{'id': '2', 'type' = 'simple'}]. The function call method calls the handle_starttag function in the case of the start tag, and repeats from the root element of the GML to the end of the file, overriding the handle_endtag function in the case of the end tag.

In this case, when parsing is completed, the map visualization component and the GridGML smartphone are stored in an object form for transmission.

Here, GML_Object is composed of an object's geometry type, the object's center coordinates, and coordinates for drawing.

The map visualization component 120 has a map property of a GML_Object (object) generated by a GML parser and visualizes it to a viewer.

The map visualization component according to the present invention implements in advance image processing methods called Draw () for each type of geometry types that can be expressed by GML for map visualization, and packages them in a group called a visual component. Approach when performing visualization and perform visualization.

The map visualization component has a Type property of GML_Object (Object) and accesses a Visualization Component to call a Draw () method that matches the type. Called Draw () method sets Color in Color Manager which has each color setting in order to distinguish building and road from user during visualization.

After the color setting is done, the visualization is performed by importing Coordinates and Text of GML_Object (Object) to make it visible to the actual viewer.

The server event manager 130 processes an event of a GML map. When an event occurs, the event manager 130 analyzes the event, sets the X and Y boundary values according to the desired event, and calls the reDraw () method. The visualization routine is performed.

The map server manager 140 divides and manages a GML map, and divides and transmits the GML map according to a specific partition area according to a GML map request of a GridGML smartphone device.

That is, as shown in FIG. 4, when the GridGML smartphone device transmits the coordinates, the active area, and the object ID, the communication module receives the coordinates, the object ID is the MD position, and the active area is GridGML (grid type). Geology Structural Language: Transfer to the Grid Geography Markup Language module.

At this time, the GridGML (Grid Geography Markup Language) module, which receives the active region, accesses the GML_Object (object) used for GML visualization, partitions the GML map according to the size of the active region, and maps the map object. Save as.

The ML light weight module 150 extracts a retransmission area from a map object and removes redundancy when transmitting a GML map through a map server manager. , SendGMLBuilder (Byte GMLBuilder) makes byte lightening.

Next, a GridGML smartphone device 200 according to the present invention will be described.

As shown in FIG. 5, the GridGML smartphone device 200 converts the WGS84 coordinate received from the GPS into TM coordinates and makes a map request to the GridGML map server, and the map transmitted from the GridGML map server. As shown in FIG. 3, the smart phone visualization component 210, the smart phone event manager 220, and the smart phone manager are shown as shown in FIG. 3. 230.

The smartphone visualization component 210 analyzes a map object received from a GridGML type map server and visualizes objects of a GML feature in a viewer.

This extracts the GML_Feature contents of the Map Object received from the GridGML type map server, accesses the Visualization Component according to the Geometry Type, and calls the Draw () method corresponding to the object type. Coordinates are imported to set the visibility color for the distinction between roads and buildings, and the drawing process is finally made visible to the viewer.

The smartphone event manager 220 extracts an event from an event manager for a server, resets the X and Y boundary values according to the corresponding event, and re-visualizes the initial visualization routine according to the reset boundary value. To re-run

An event manager for a smartphone according to the present invention executes an enlarged / reduced event to reset four visible areas, delivers them to the smartphone manager, and also resets the map partition of the GridGML map server. do.

The smartphone manager 230 divides and visualizes the GML map received from the GridGML map server into four visible areas, and requests retransmission of the GML map to the GridGML map server when it leaves the screen area. do.

When a GML map is received from a GridGML type map server, the map object in a byte format is restored from a receivemap object and stored as a map object.

At this time, the grid area is sent to the area state to divide the grid area by the area of the currently held map object through the stored map object.

AreaState separates the current area of the map and passes it to each execution routine.

When entering the active area out of the screen area, it calls the update position, receives the current coordinates from the GPS, and performs a map retransmission request to the GridGML type map server.

Hereinafter, a detailed operation process of the GridGML implementation for real-time map transmission and smartphone map visualization according to the present invention will be described.

First, as shown in FIG. 6, a Geography Markup Language (GML) map is visualized through a GridGML type map server.

Subsequently, when there is a map request from the GridGML smartphone device, the GridGML map server transmits a partition including the active area.

Subsequently, an ID is assigned to the map data transmitted from the GridGML type map server to the GridGML type smartphone device and managed.

Subsequently, the GridGML smartphone device converts the WGS84 coordinate received from the GPS into TM coordinates and requests a map to the GridGML map server.

Subsequently, as shown in FIG. 7, in the GridGML smartphone device, the map transmitted from the GridGML map server is repartitioned and visualized on the basis of the display area.

100: GridGML map server 110: GML parser
120: map visualization component 130: server event manager
140: map server manager 150: GML light weight module
200: GridGML smartphone device
210: smartphone visualization component
220: event manager for smartphone
230: smartphone manager

Claims (3)

GridGML, which visualizes GML (Geography Markup Language) maps and transmits the divided area including the active area when there is a map request from the GridGML smartphone device, and assigns and manages the map data transmitted to the GridGML smartphone device. Type map server 100,
After converting the WGS84 coordinates received from the GPS into TM coordinates, a map request is made to the GridGML map server, and the GridGML smartphone device 200 visualizes the map transmitted from the GridGML map server by re-segmenting the display area. GridGML implementation for real-time map transmission and smartphone map visualization, characterized in that the configuration.
According to claim 1, GridGML type map server 100
GML parser 110 for extracting attributes after analyzing the GML map,
A map visualization component 120 which visualizes the map property of the GML_Object (object) generated by the GML parser in the viewer;
Event manager (130) for server which processes event of GML map,
A map server manager (140) for dividing and managing a GML map and dividing and transmitting the GML map according to a specific partition according to a GML map request of a GridGML smartphone device;
When sending GML map through Map Server Manager, GML light weight which extracts retransmission area from Map Object, removes redundancy, and then byte-sizes in SendGMLBuilder. GridGML implementation for real-time map transmission and smartphone map visualization, characterized in that consisting of a module (GML Light-weight Module) (150).
delete

Images