CN103049583A

CN103049583A - Conversion method and conversion interface of land monitoring data

Info

Publication number: CN103049583A
Application number: CN201210550353XA
Authority: CN
Inventors: 王号
Original assignee: SHANGHAI MUNICIPAL HOUSING LAND AND RESOURCES INFORMATION CENTER
Current assignee: SHANGHAI MUNICIPAL HOUSING LAND AND RESOURCES INFORMATION CENTER
Priority date: 2012-12-17
Filing date: 2012-12-17
Publication date: 2013-04-17
Anticipated expiration: 2032-12-17
Also published as: CN103049583B

Abstract

The invention discloses a conversion method of land monitoring data. The conversion method comprises the following steps of: obtaining coordinate list information of a boundary point and reading a project marker from the coordinate list information of the boundary point; reading boundary point information of each project according to the project marker; obtaining the number of the boundary points included in each circle of each project and the area of each circle based on the boundary point information; obtaining a total area of each plot of each project and the total number of the included boundary points based on the area of each circle and the number of the included boundary points; and generating a corresponding boundary point text file according to the project marker based on the total area of each plot in the project and the total number of the included boundary points. In addition, the invention also provides a conversion interface of the land monitoring data. The conversion method and conversion interface of the land monitoring data, disclosed by the invention, have the advantages of increasing work efficiency, avoiding the condition of data filling error and omission caused by human factors as artificially filled data are reduced and artificial statistics is no longer needed, and guaranteeing accuracy and completeness of the data.

Description

The conversion method of earth monitor data and translation interface

Technical field

The present invention relates to the data-switching field, particularly relate to a kind of conversion method and translation interface of earth monitor data.

Background technology

In order to adapt to the macro adjustments and controls needs, set up the fast reaction mechanism of land supply situation, strengthen the macro-data function of statistic analysis, Ministry of Land and Resources has set up land dynamic monitoring and the supervisory systems that covers the whole nation, to realize supervising in overall process to land supply and development and use situation.

Because the graph data in land dynamic monitoring and the supervisory systems is not data layout general, that the main flow Geographic Information System is supported, but report with specific text file format, therefore can not realize by Data Format Transform, general data transformation interface is not provided yet.All local graph datas adopt local coordinate, cause the space and geographical coordinate system of raw data and reported data incompatible, can only first converted coordinate be, the regeneration raw data, then manually be filled up to one by one in land dynamic monitoring and the supervisory systems, so need to expend a large amount of time, work efficiency is low.

Summary of the invention

Based on this, be necessary to report the problem that needs manually input to cause inefficiency for existing land data, a kind of conversion method of the earth monitor data that can increase work efficiency is provided.

In addition, also be necessary to report the problem that needs manually input to cause inefficiency for existing land data, a kind of translation interface of the earth monitor data that can increase work efficiency is provided.

A kind of conversion method of earth monitor data may further comprise the steps:

Obtain boundary mark list of coordinates information, and from described boundary mark list of coordinates information, read project label;

Read the boundary mark information of each project by project label;

The boundary mark number that comprises according to each circle in described each project of boundary mark acquisition of information and the area of each circle;

Obtain the total area in each plot in each project and the boundary mark sum that comprises according to the area of each circle and the boundary mark number that comprises;

By the total area and the boundary mark that comprise total generation corresponding boundary mark text of project label according to each plot in the project.

A kind of translation interface of earth monitor data comprises:

Acquisition module is used for obtaining boundary mark list of coordinates information, and reads project label from described boundary mark list of coordinates information;

Read module is for the boundary mark information that reads each project by project label;

The number of turns is according to processing module, for the area of the boundary mark number that comprises according to described each circle of each project of boundary mark acquisition of information and each circle;

The plot data processing module is used for obtaining the total area in each each plot of project and the boundary mark sum that comprises according to the area of described circle and the boundary mark number that comprises;

Generation module is used for by project label according to the total area in each plot of project and the corresponding boundary mark text of boundary mark sum generation that comprises.

The conversion method of above-mentioned earth monitor data and translation interface, after from boundary mark list of coordinates information, obtaining all boundary mark information of each project, can obtain each boundary mark number of comprising of circle and the area of each circle, calculate again the total area in each plot according to the area of circle, the boundary mark number that comprises according to circle obtains the boundary mark sum that each plot comprises, thereby generate required boundary mark text, do not need manually to make a report on the boundary mark coordinate, improved work efficiency, and manually add up because having reduced manually to make a report on data and do not need, avoid making a report on the situation of errors and omissions because human factor causes data, guaranteed accuracy and the integrality of data.

Description of drawings

Fig. 1 is the schematic flow sheet of the conversion method of earth monitor data among the embodiment;

Fig. 2 is the schematic flow sheet of the boundary mark number that comprises according to each circle in each project of boundary mark acquisition of information;

Fig. 3 is the synoptic diagram that concerns of plot and circle, circle level number;

Fig. 4 is according to the total area in each plot in the project and the schematic flow sheet of the corresponding boundary mark text of boundary mark sum generation that comprises by project label;

Fig. 5 is the inner structure synoptic diagram of the translation interface of earth monitor data among the embodiment;

Fig. 6 is the inner structure synoptic diagram of an embodiment centre circle data processing module;

Fig. 7 is the inner structure synoptic diagram of generation module among the embodiment;

Fig. 8 is the inner structure synoptic diagram of the translation interface of earth monitor data among another embodiment.

Embodiment

Below in conjunction with specific embodiment and accompanying drawing the conversion method of earth monitor data and the technical scheme of translation interface are described in detail, so that it is clearer.

As shown in Figure 1, in one embodiment, a kind of conversion method of earth monitor data may further comprise the steps:

Step S110 obtains boundary mark list of coordinates information, and reads project label from boundary mark list of coordinates information.

Concrete, boundary mark list of coordinates information refers to the original soil status information that gathers, the area that comprises area, the plot of all circles in boundary mark sum in project label, the project, the plot comprised comprise area, the circle in hole numbering, Boundary mark serial, block number, plot title, plot purposes, recording geometry attribute (such as face) etc.Project refers to an item of earth monitor, and project label is used for the uniqueness of differentiation project, can comprise project name and/or bullets, and project name is such as " Shanghai Song Fu soil ", and bullets is such as 245 etc.Wherein, a boundary mark list of coordinates comprises one or more projects, and each project comprises one or more plot, each plot comprises one or more circles, and each circle comprises four or more boundary mark.Each boundary mark comprises X, Y coordinate, i.e. latitude and longitude coordinates.Circle refers to single, polygonal shape sealing, that do not have internal chiasma that the boundary mark by four or four meanings joins successively, joins end to end and consist of.

In addition, after step S 110, also can comprise: make up the project label record set; From the project label record set, read successively project label.Concrete, making up the project label record set is to analyze in order conveniently to read.

Step S120 reads the boundary mark information of each project by project label.

Concrete, boundary mark information comprises latitude and longitude coordinates, Boundary mark serial etc.Read all boundary mark information of each project.

Step S130, the boundary mark number that comprises according to each circle in this each project of boundary mark acquisition of information and the area of each circle.

Concrete, the boundary mark number that comprises in each circle can obtain by calculating, and the area of each circle can obtain from boundary mark list of coordinates information.

Step S140 obtains the total area in each plot in each project and the boundary mark sum that comprises according to the area of each circle and the boundary mark number that comprises.

Step S150 is by the total area and the boundary mark that comprise total generation corresponding boundary mark text of project label according to each plot in the project.

The conversion method of above-mentioned earth monitor data, after from boundary mark list of coordinates information, obtaining all boundary mark information of each project, can obtain each boundary mark number of comprising of circle and the area of each circle, calculate again the total area in each plot according to the area of circle, the boundary mark number that comprises according to circle obtains the boundary mark sum that each plot comprises, thereby generate required boundary mark text, do not need manually to make a report on the boundary mark coordinate, improved work efficiency, and manually add up because having reduced manually to make a report on data and do not need, avoid making a report on the situation of errors and omissions because human factor causes data, guaranteed accuracy and the integrality of data.

In one embodiment, as shown in Figure 2, the step of the boundary mark number that comprises according to each circle in each project of boundary mark acquisition of information comprises:

Step S131 encloses record set accordingly according to the boundary mark information architecture of each project.

Concrete, circle is the boundary mark that four or more is arranged join successively, the join end to end single sealing that consists of and the polygonal shape that does not have internal chiasma, may be read into all circles according to boundary mark information, make up a circle record set, all circles are deposited in this circle record set.Each circle has the numbering of circle.

Step S132 reads the numbering of enclosing the record set centre circle.

Concrete, from the circle record set, read one by one the numbering of circle, read the numbering of a circle, boundary mark number in the statistics circle at every turn.

Step S133 reads the Boundary mark serial of first boundary mark of described circle.

Concrete, each circle comprises initial Boundary mark serial and the Boundary mark serial of termination, and the Boundary mark serial of initial Boundary mark serial and termination is identical.This initial Boundary mark serial is the Boundary mark serial of first boundary mark.

Step S134 reads the Boundary mark serial of next boundary mark of described circle as current Boundary mark serial.

Concrete, read successively Boundary mark serial according to the order of joining of the boundary mark of circle, namely read the Boundary mark serial of first boundary mark after, read the Boundary mark serial of the next boundary mark adjacent with first boundary mark, and with it as current Boundary mark serial.

Step S135, the Boundary mark serial with first boundary mark of described circle is identical to judge current Boundary mark serial, if, execution in step S136 then, if not, execution in step S137.

Concrete, current Boundary mark serial is identical with the Boundary mark serial of first boundary mark, represent that then this encloses all boundary marks and runs through, the boundary mark number that record is read, if different, represent that then this circle also has boundary mark not read, the boundary mark number is added 1 after, continue to read the Boundary mark serial of next boundary mark and judge.

Step S136 records the boundary mark number of this circle.

Step S137 adds 1 with the boundary mark number, returns step S134.

Above-mentioned boundary mark number according to each circle of boundary mark information calculations is take raw data as foundation, and the boundary mark number is accurately complete in the circle that calculates.

Further, in one embodiment, obtain the total area in each plot in each project and the step of the boundary mark sum that comprises comprises according to the area of each circle and the boundary mark number that comprises: the level of the circle in each plot is divided into odd-level and even level from outside to inside one by one, the area of outermost layer circle is added that area that the area of odd-level circle deducts the even level circle obtains the total area in plot, and the boundary mark number summation that each circle in the plot is comprised obtains the boundary mark sum that described plot comprises.

Concrete, comprise one or more circles in each plot, in each circle, also can comprise the hole, can comprise the island in the hole.The hole refers to break-through on the soil or the part of getting deeply stuck in, and the island refers to the land that is surrounded by water.The level number of the circle in the plot is distributed successively by natural sequence from the skin to the internal layer, and so the circle level number of the odd number except 1 represents the island, and the circle level number of even number represents the hole, when calculating the plot total area, need deduct the area in hole, adds the area on island.Be illustrated in figure 3 as the synoptic diagram that concerns of plot and circle, circle level number, the plot is comprised of 5 circles among Fig. 3, have three levels, circle 1 is outermost layer, and then enclosing level number is 1, it is the second layer that three holes are wherein arranged, three holes are circle 2, circle 3 and enclose 4 that its level number is that 2, one islands are circle 5, belong to the 3rd layer, level number is 3.

Further, as shown in Figure 4, in one embodiment, should comprise with the step that the boundary mark sum that comprises generates corresponding boundary mark text by the total area of project label according to each plot in the project:

Step S151 sets up corresponding boundary mark text with project label.

Concrete, project label comprises project name and/or bullets.Can project name or bullets set up corresponding boundary mark text, the corresponding boundary mark text of each project.

Step S152, write head fileinfo, and the header and each the intramassif boundary mark coordinate information that in described boundary mark text, write each plot in the described project label.

Concrete, header file information comprises coordinate system information, projection type, measurement unit, precision etc.The header in plot comprise boundary mark sum, the total area, project name and/or bullets, plot title, block number etc.

As shown in Figure 5, a kind of translation interface of earth monitor data comprises that acquisition module 110, read module 120, the number of turns are according to processing module 130, plot data processing module 140 and generation module 150.Wherein:

Acquisition module 110 is used for obtaining boundary mark list of coordinates information, and reads all project labels from described boundary mark list of coordinates information.

Read module 120 is used for reading by project label the boundary mark information of each project.

The number of turns is according to the area of processing module 130 for the boundary mark number that comprises according to described each circle of each project of boundary mark acquisition of information and each circle.

Plot data processing module 140 is used for obtaining the total area in each each plot of project and the boundary mark sum that comprises according to the area of described circle with the boundary mark number that comprises.

Generation module 150 is used for by project label according to the total area in each plot of project and the corresponding boundary mark text of boundary mark sum generation that comprises.

The translation interface of above-mentioned earth monitor data, after from boundary mark list of coordinates information, obtaining all boundary mark information of each project, can obtain each boundary mark number of comprising of circle and the area of each circle, calculate again the total area in each plot according to the area of circle, the boundary mark number that comprises according to circle obtains the boundary mark sum that each plot comprises, thereby generate required boundary mark text, do not need manually to make a report on the boundary mark coordinate, improved work efficiency, and manually add up because having reduced manually to make a report on data and do not need, avoid making a report on the situation of errors and omissions because human factor causes data, guaranteed accuracy and the integrality of data.

As shown in Figure 6, in one embodiment, the number of turns comprises circle record set construction unit 131, circle numbering reading unit 132, circle Boundary mark serial reading unit 133, judging unit 134, record cell 135 and counting unit 136 according to processing module 130.Wherein:

Circle record set construction unit 131 is used for enclosing accordingly record set according to the boundary mark information architecture of each project.

Circle numbering reading unit 132 is used for reading the numbering of described circle record set centre circle.

Circle Boundary mark serial reading unit 133 is used for reading the Boundary mark serials of first boundary mark of described circle, and reads the Boundary mark serial of the next boundary mark of described circle, and with the Boundary mark serial of next boundary mark as current Boundary mark serial.

Concrete, each circle comprises initial Boundary mark serial and the Boundary mark serial of termination, and the Boundary mark serial of initial Boundary mark serial and termination is identical.This initial Boundary mark serial is the Boundary mark serial of first boundary mark.The order of joining according to the boundary mark of circle reads Boundary mark serial successively, namely read the Boundary mark serial of first boundary mark after, read the Boundary mark serial of the next boundary mark adjacent with first boundary mark, and with it as current Boundary mark serial.

Judging unit 134 is used for judging described current Boundary mark serial, and the Boundary mark serial with first boundary mark of described circle is identical.

Record cell 135 is used for recording the boundary mark number of described circle when the Boundary mark serial of judging described current Boundary mark serial and first boundary mark of described circle is identical.

Counting unit 136 is used for when the Boundary mark serial of judging described current Boundary mark serial and first boundary mark of described circle is not identical, the boundary mark number is added 1, read the Boundary mark serial of next boundary mark of described circle as current Boundary mark serial by circle Boundary mark serial reading unit 133 again, until judging unit 134 judge the Boundary mark serial of current Boundary mark serial and first boundary mark of circle identical after, the boundary mark number of the described circle of record cell 135 records.

In one embodiment, plot data processing module 140 also is used for the level of the circle in each plot is divided into odd-level and even level from outside to inside one by one, the area of outermost layer circle is added that area that the area of odd-level circle deducts the even level circle obtains the total area in plot, and the boundary mark number summation that each circle in the plot is comprised obtains the boundary mark sum that described plot comprises.

In one embodiment, as shown in Figure 7, generation module 150 comprises sets up unit 151 and writing unit 152.Wherein:

Setting up unit 151 is used for setting up corresponding boundary mark text with project label.

Writing unit 152 is used for the write head fileinfo, and the header and each the intramassif boundary mark coordinate information that write each plot in the described project label in described boundary mark text.

As shown in Figure 8, in one embodiment, the translation interface of above-mentioned earth monitor data, except comprising acquisition module 110, read module 120, the number of turns according to processing module 130, plot data processing module 140 and generation module 150, comprise that also the item record collection makes up module 160 and project label read module 170.Wherein:

The item record collection makes up module 160 and is used for making up the project label record set.

Project label read module 170 is used for reading successively project label from described project label record set.

Concrete, structure project label record set conveniently reads to be analyzed.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to claim of the present invention.Should be pointed out that for the person of ordinary skill of the art without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims

1. the conversion method of earth monitor data may further comprise the steps:

Read the boundary mark information of each project by project label;

2. the conversion method of earth monitor data according to claim 1 is characterized in that, the step of the described boundary mark number that comprises according to each circle in described each project of boundary mark acquisition of information comprises:

Boundary mark information architecture according to each project encloses record set accordingly;

Read the numbering of described circle record set centre circle;

Read the Boundary mark serial of first boundary mark of described circle;

Read the Boundary mark serial of next boundary mark of described circle as current Boundary mark serial;

The Boundary mark serial with first boundary mark of described circle is identical to judge described current Boundary mark serial, if, then record the boundary mark number of described circle, if not, then the boundary mark number is added 1, read again the Boundary mark serial of next boundary mark of described circle as current Boundary mark serial, until the Boundary mark serial of current Boundary mark serial and first boundary mark of described circle identical after, record the boundary mark number of described circle.

3. the conversion method of earth monitor data according to claim 1 is characterized in that, described area according to each circle obtains the total area in each plot in each project with the boundary mark number that comprises and the step of the boundary mark sum that comprises comprises:

The level of the circle in each plot is divided into odd-level and even level from outside to inside one by one, the area of outermost layer circle is added that area that the area of odd-level circle deducts the even level circle obtains the total area in plot, and the boundary mark number summation that each circle in the plot is comprised obtains the boundary mark sum that described plot comprises.

4. the conversion method of earth monitor data according to claim 1 is characterized in that, describedly comprises according to the step that the total area in each plot in the project and the boundary mark sum that comprises generate corresponding boundary mark text by project label:

Set up corresponding boundary mark text with project label;

Write head fileinfo, and the header and each the intramassif boundary mark coordinate information that in described boundary mark text, write each plot in the described project label.

5. the conversion method of earth monitor data according to claim 1, it is characterized in that, obtaining boundary mark list of coordinates information, and from described boundary mark list of coordinates information, read after the step of all project labels, read by project label before the step of boundary mark information of each project, also comprise step:

Make up the project label record set;

From described project label record set, read successively project label;

Described project label comprises project name and/or bullets.

6. the translation interface of earth monitor data is characterized in that, comprising:

7. the translation interface of earth monitor data according to claim 6 is characterized in that, the described number of turns comprises according to processing module:

Circle record set construction unit is used for enclosing accordingly record set according to the boundary mark information architecture of each project;

Circle numbering reading unit is for the numbering that reads described circle record set centre circle;

Circle Boundary mark serial reading unit is used for reading the Boundary mark serial of first boundary mark of described circle, and reads the Boundary mark serial of the next boundary mark of described circle, and with the Boundary mark serial of next boundary mark as current Boundary mark serial;

Judging unit, the Boundary mark serial with first boundary mark of described circle is identical to be used for judging described current Boundary mark serial;

Record cell is used for recording the boundary mark number of described circle when the Boundary mark serial of judging described current Boundary mark serial and first boundary mark of described circle is identical;

Counting unit, be used for when the Boundary mark serial of judging described current Boundary mark serial and first boundary mark of described circle is not identical, the boundary mark number is added 1, read the Boundary mark serial of next boundary mark of described circle as current Boundary mark serial by described circle Boundary mark serial reading unit again, until described judgment unit judges go out the Boundary mark serial of current Boundary mark serial and first boundary mark of described circle identical after, the boundary mark number of the described circle of described recording unit records.

8. the translation interface of earth monitor data according to claim 6, it is characterized in that, described plot data processing module also is used for the level of the circle in each plot is divided into odd-level and even level from outside to inside one by one, the area of outermost layer circle is added that area that the area of odd-level circle deducts the even level circle obtains the total area in plot, and the boundary mark number summation that each circle in the plot is comprised obtains the boundary mark sum that described plot comprises.

9. the translation interface of earth monitor data according to claim 6 is characterized in that, described generation module comprises:

Set up the unit, be used for setting up corresponding boundary mark text with project label;

Writing unit is used for the write head fileinfo, and the header and each the intramassif boundary mark coordinate information that write each plot in the described project label in described boundary mark text.

10. the translation interface of earth monitor data according to claim 6 is characterized in that, described translation interface also comprises:

The item record collection makes up module, is used for making up the project label record set;

The project label read module is used for reading successively project label from described project label record set;

Described project label comprises project name and/or bullets.