CN103049583B

CN103049583B - The conversion method of earth monitor data and translation interface

Info

Publication number: CN103049583B
Application number: CN201210550353.XA
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: 2015-09-30
Anticipated expiration: 2032-12-17
Also published as: CN103049583A

Abstract

A conversion method for earth monitor data, comprises the following steps: obtain boundary mark list of coordinates information, and read project label from described boundary mark list of coordinates information; The boundary mark information of each project is read by project label; The boundary mark number comprised according to each circle in each project of described boundary mark acquisition of information and the area of each circle; According to area and the boundary mark number the comprised total area obtaining each plot in each project and the boundary mark sum comprised of each circle; Corresponding boundary mark text is generated according to the total area in plot each in project and the boundary mark sum comprised by project label.In addition, a kind of translation interface of earth monitor data is also provided.The conversion method of above-mentioned earth monitor data and translation interface, improve work efficiency, and manually make a report on data because decreasing and do not need manually to add up, avoid the situation causing data data errors and omission because of human factor, ensure that accuracy and the integrality of data.

Description

The conversion method of earth monitor data and translation interface

Technical field

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

Background technology

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

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

Summary of the invention

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

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

A conversion method for earth monitor data, comprises the following steps:

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

The boundary mark information of each project is read by project label;

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

According to area and the boundary mark number the comprised total area obtaining each plot in each project and the boundary mark sum comprised of each circle;

Corresponding boundary mark text is generated according to the total area in plot each in project and the boundary mark sum comprised by project label.

A translation interface for earth monitor data, comprising:

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

Read module, for reading the boundary mark information of each project by project label;

Circle data processing module, for the area of the boundary mark number that comprises according to each circle in each project of described boundary mark acquisition of information and each circle;

Plot data processing module, for the total area that obtains each plot in each project according to the area of described circle and the boundary mark number that comprises and the boundary mark sum comprised;

Generation module, for generating corresponding boundary mark text by project label according to the total area in plot each in project and the boundary mark sum comprised.

The conversion method of above-mentioned earth monitor data and translation interface, by obtain all boundary mark information of each project from boundary mark list of coordinates information after, the area of boundary mark number that each circle comprises and each circle can be obtained, the total area calculating each plot is carried out again according to the area of circle, the boundary mark sum that each plot comprises is obtained according to enclosing the boundary mark number that comprises, thus the boundary mark text needed for generating, do not need manually to make a report on boundary mark coordinate, improve work efficiency, and manually make a report on data because decreasing and do not need manually to add up, avoid the situation causing data data errors and omission because of human factor, ensure that accuracy and the integrality of data.

Accompanying drawing explanation

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

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

Fig. 3 is the relation schematic diagram of plot and circle, ring layer number;

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

Fig. 5 is the inner structure schematic diagram of the translation interface of earth monitor data in an embodiment;

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

Fig. 7 is the inner structure schematic diagram of generation module in an embodiment;

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

Embodiment

The conversion method of earth monitor data and the technical scheme of translation interface are described in detail, to make it clearly below in conjunction with specific embodiment and accompanying drawing.

As shown in Figure 1, in one embodiment, a kind of conversion method of earth monitor data, comprises the following steps:

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

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

In addition, after step S 110, also can comprise: build project label record set; Project label is read successively from project label record set.Concrete, building project label record set is conveniently read to analyze.

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 comprised according to each circle in each project of this boundary mark acquisition of information and the area of each circle.

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

Step S140, the total area obtaining each plot in each project according to area and the boundary mark number comprised of each circle and the boundary mark sum comprised.

Step S150, generates corresponding boundary mark text by project label according to the total area in plot each in project and the boundary mark sum comprised.

The conversion method of above-mentioned earth monitor data, by obtain all boundary mark information of each project from boundary mark list of coordinates information after, the area of boundary mark number that each circle comprises and each circle can be obtained, the total area calculating each plot is carried out again according to the area of circle, the boundary mark sum that each plot comprises is obtained according to enclosing the boundary mark number that comprises, thus the boundary mark text needed for generating, do not need manually to make a report on boundary mark coordinate, improve work efficiency, and manually make a report on data because decreasing and do not need manually to add up, avoid the situation causing data data errors and omission because of human factor, ensure that accuracy and the integrality of data.

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

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

Concrete, circle be have four or more boundary mark to connect successively, form single that join end to end close and do not have the polygonal shape of internal chiasma, may be read into all circles according to boundary mark information, build a circle record set, by all circles stored in this circle record set.Each circle has the numbering of circle.

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

Concrete, from circle record set, read the numbering of circle one by one, each numbering reading a circle, boundary mark number in statistics circle.

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 initial Boundary mark serial is identical with the Boundary mark serial of termination.This initial Boundary mark serial is the Boundary mark serial of first boundary mark.

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

Concrete, read Boundary mark serial successively according to the order that connects of the boundary mark of circle, after namely reading the Boundary mark serial of first boundary mark, read the Boundary mark serial of the next boundary mark adjacent with first boundary mark, and it can be used as current Boundary mark serial.

Step S135, judges that whether current Boundary mark serial is identical with the Boundary mark serial of first boundary mark of described circle, if so, then performs step S136, if not, performs step S137.

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

Step S136, records the boundary mark number of this circle.

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

The above-mentioned boundary mark number calculating each circle according to boundary mark information is foundation with raw data, and in the circle calculated, boundary mark number is accurately complete.

Further, in one embodiment, the total area obtaining each plot in each project according to the area of each circle and the boundary mark number that comprises and the step of boundary mark sum comprised comprise: 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 area that the area of odd-level circle deducts even level circle obtains the total area in plot, the boundary mark number comprised by circle each in plot summation obtains the boundary mark sum that described plot comprises.

Concrete, comprise one or more circle in each plot, in each circle, also can comprise hole, in hole, can island be comprised.The part that hole refers to break-through on soil or gets deeply stuck in, island refers to the land be surrounded by water.Distributed successively by natural sequence from skin to internal layer by the level number of the circle in plot, the ring layer number of the odd number so except 1 represents island, and the ring layer number of even number represents hole, when calculating the plot total area, need deduct the area in hole, add the area on island.Be illustrated in figure 3 the relation schematic diagram of plot and circle, ring layer number, in Fig. 3, plot is made up of 5 circles, have three levels, circle 1 is outermost layer, then ring layer number is 1, three holes are wherein had to be the second layer, three holes are circle 2, circle 3 and circle 4, and its level number is 2, island is circle 5, belong to third layer, level number is 3.

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

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

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

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

Concrete, header file information comprises coordinate system informations, 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 acquisition module 110, read module 120, circle data processing module 130, plot data processing module 140 and generation module 150.Wherein:

Acquisition module 110 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 for reading the boundary mark information of each project by project label.

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

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

Generation module 150 is for generating corresponding boundary mark text by project label according to the total area in plot each in project and the boundary mark sum comprised.

The translation interface of above-mentioned earth monitor data, by obtain all boundary mark information of each project from boundary mark list of coordinates information after, the area of boundary mark number that each circle comprises and each circle can be obtained, the total area calculating each plot is carried out again according to the area of circle, the boundary mark sum that each plot comprises is obtained according to enclosing the boundary mark number that comprises, thus the boundary mark text needed for generating, do not need manually to make a report on boundary mark coordinate, improve work efficiency, and manually make a report on data because decreasing and do not need manually to add up, avoid the situation causing data data errors and omission because of human factor, ensure that accuracy and the integrality of data.

As shown in Figure 6, in one embodiment, enclose data processing module 130 and comprise 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.Wherein:

Circle record set construction unit 131 encloses record set accordingly for the boundary mark information architecture according to each project.

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

Circle Boundary mark serial reading unit 133 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 using 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 initial Boundary mark serial is identical with the Boundary mark serial of termination.This initial Boundary mark serial is the Boundary mark serial of first boundary mark.Read Boundary mark serial successively according to the order that connects of the boundary mark of circle, after namely reading the Boundary mark serial of first boundary mark, read the Boundary mark serial of the next boundary mark adjacent with first boundary mark, and it can be used as current Boundary mark serial.

Judging unit 134 is for judging that whether described current Boundary mark serial is identical with the Boundary mark serial of first boundary mark of described circle.

Record cell 135, for when judging that described current Boundary mark serial is identical with the Boundary mark serial of first boundary mark of described circle, records the boundary mark number of described circle.

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

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

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

Set up unit 151 for setting up corresponding boundary mark text with project label.

Writing unit 152 for write head fileinfo, and writes the header in each plot in described project label and each intramassif boundary mark coordinate information 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, circle data processing module 130, plot data processing module 140 and generation module 150, also comprising item record collection and building module 160 and project label read module 170.Wherein:

Item record collection builds module 160 for building project label record set.

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

Concrete, build project label record set and facilitate reading to analyze.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It 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. a conversion method for earth monitor data, comprises the following steps:

The boundary mark information of each project is read by project label;

Corresponding boundary mark text is generated according to the total area in plot each in project and the boundary mark sum comprised by project label;

The step of the described boundary mark number comprised according to each circle in each project of described 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 the next boundary mark of described circle as current Boundary mark serial;

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

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

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 area that the area of odd-level circle deducts even level circle obtains the total area in plot, the boundary mark number comprised by circle each in plot summation obtains the boundary mark sum that described plot comprises.

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

Corresponding boundary mark text is set up with project label;

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

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

Build project label record set;

Project label is read successively from described project label record set;

Described project label comprises project name and/or bullets.

5. a conversion equipment for earth monitor data, is characterized in that, comprising:

Generation module, for generating corresponding boundary mark text by project label according to the total area in plot each in project and the boundary mark sum comprised;

Described circle data processing module comprises:

Circle record set construction unit, encloses record set accordingly for the boundary mark information architecture according to each project;

Circle numbering reading unit, for reading the numbering of described circle record set centre circle;

Circle Boundary mark serial reading unit, 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 using the Boundary mark serial of next boundary mark as current Boundary mark serial;

Judging unit, for judging that whether described current Boundary mark serial is identical with the Boundary mark serial of first boundary mark of described circle;

Record cell, for when judging that described current Boundary mark serial is identical with the Boundary mark serial of first boundary mark of described circle, records the boundary mark number of described circle;

Counting unit, for when judging that described current Boundary mark serial is not identical with the Boundary mark serial of first boundary mark of described circle, boundary mark number is added 1, the Boundary mark serial of the next boundary mark of described circle is read as current Boundary mark serial again by described circle Boundary mark serial reading unit, until after described judging unit judges that current Boundary mark serial is identical with the Boundary mark serial of first boundary mark of described circle, the boundary mark number enclosed described in described recording unit records.

6. the conversion equipment of earth monitor data according to claim 5, it is characterized in that, described plot data processing module is also for being divided into odd-level and even level one by one from outside to inside by the level of the circle in each plot, the area of outermost layer circle is added area that the area of odd-level circle deducts even level circle obtains the total area in plot, the boundary mark number comprised by circle each in plot summation obtains the boundary mark sum that described plot comprises.

7. the conversion equipment of earth monitor data according to claim 5, is characterized in that, described generation module comprises:

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

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

8. the conversion equipment of earth monitor data according to claim 5, is characterized in that, described translation interface also comprises:

Item record collection builds module, for building project label record set;

Project label read module, for reading project label successively from described project label record set;

Described project label comprises project name and/or bullets.