CN105046456A - GIS-based intelligent monitoring method for land full life circle - Google Patents

Abstract

The invention relates to a GIS-based intelligent monitoring method for a land full life circle. The method comprises the steps that 1, a space position parameter determining module determines coordinates according to click positions; 2, a land full life circle model building module obtains layers contained in all stages, a topological relation between the layers and 1 is built, and latest and historical items are obtained according to the reverse chronological order; 3, an item information updating module builds the GIS topological relation according to the currency of 2 and completes initial updating; 4, an item information check module checks 3 according to a check rule module and the GIS topological relation; 5, an intelligent monitoring module automatically gives an early warm according to stage division rules and display rules, and updating is carried out according to 3 and 4. An item implementation schedule visible result obtained through the GIS-based intelligent monitoring method is obviously better compared with a land management service total factor life cycle model and a static state visible and single updating technology, dynamic correlation and real-time early warning can be carried out on different land utilization stages, and the intelligent monitoring purpose is achieved.

Description

A kind of soil Life cycle wisdom monitoring and managing method based on GIS

Technical field

The present invention relates to soil and planning information wisdom regulation technique field, relate to a kind of soil Life cycle wisdom monitoring and managing method based on GIS specifically.

Background technology

Soil is the material base that the mankind depend on for existence and development, produce at it, change in the process of extinction, the locus form in soil and additional attribute information thereof are all that elementary cell is constantly deduced change in time with plot, and the result of quantitative change or qualitative change is directly reflected into each stage of soil lifecycle management.Because the land management operation flow of different regions is different, the content of soil lifecycle management is also inconsistent.Generally speaking, the stages such as can grinding project verification, land management " batch levy look into step on " for benefit, planning management, construction management and final acceptance of construction is mainly comprised.Take plot as index between each stage, there is certain causalnexus over time and space.But, owing to lacking the support of technology, fund and standard for information system, Land-use ubiquity fragmentation, the problem such as decentralized and imperfect, cause that information data inosculate is poor, relevance is weak, excavating depth is inadequate, the information-based unbalanced easy generation supervision blind spot of partial service, can not meet the demand of Land_use change process monitor and urban and rural planning quantitative test simultaneously.

Under the support that land management business total factor life cycle model based on ancestor ground coding rule is in infotech, take plot as administrative unit, with each space-like of land resource and attribute key element for management object, with business handling links such as " batches look into step on " for benefit of land management for management trail, with land management business factor by giving birth to a kind of novel Land Information intergration model that the life cycle of going out is range of management.The method constructs the logic association tree of interblock spatially, establishes single business plot and associate with the transverse direction of approval process and longitudinal direction between land management business total factor associate, in real time " criticize look into step on " for the benefit situation in each plot of grasp.But this pattern to have certain region restricted, need to increase coding to historical information early stage at data loading, waste time and energy, accuracy is inadequate; High in the later maintenance cost of encode management, workload is large; Because the ownership in soil and purposes are always constantly changing, along with the accumulation of ancestor ground data, cause data calculation of complex, inefficiency, Real-Time Monitoring and early warning renewal cannot be carried out to the implementation information in each stage simultaneously, not strong to the historical information backtracking property of plot life cycle.

Static information manifestation mode is it is emphasised that static page, mainly utilize visual variable that vision difference and visible change and then this feature of transmission of information can be caused to carry out the process of expression data, information or analysis result, in whole process, information remains constant.This feature is unfavorable for that flow-data especially upgrades the Visualization of data frequently, and manifestation mode is comparatively single, underaction.Form information renewal technology is the process of single figure layer data being carried out to the increase of information, amendment and deletion, and this feature causes at no point in the update process, cannot carry out verification in real time to other layer related and upgrade.The essence of Land_use change wisdom supervision utilizes Information Technology Methods to realize to scheme pipe ground, to scheme ground, by figure, literary composition, show Trinitarian manifestation mode and adaptive matched rule, use the circulation process of the data representation soil business of flowing, and then realization is to the intellectual monitoring of Land_use change overall process and early warning.Compare traditional static information manifestation mode more visual and clear, by the inner link between soil Life cycle each stage, excavate project implementation institute problems faced, the automatic project information to not upgrading indicates simultaneously, is conducive to control business operational details being done to macroscopical aspect.

Summary of the invention

The present invention mainly solves the problem existing for prior art; Provide and a kind ofly can carry out the degree of depth to Land_use change and city planning information and excavate and organic method associated, change traditional data static visual expression and individual event update mode, allows data stream move up.By soil Life cycle division rule and information displaying rule, existing information is carried out in real time, comparison intuitively and sign, intellectual monitoring and early warning are carried out to the project implementation progress in soil life cycle each stage, thus realize upgrading in time and effective utilization of information, for Land_use change and urban planning administration provide a kind of soil Life cycle wisdom monitoring and managing method based on GIS of technical support.

Above-mentioned technical matters of the present invention is mainly solved by following technical proposals:

Based on a soil Life cycle wisdom monitoring and managing method of GIS, it is characterized in that, based on definition: setting life cycle includes n stage, n>=2 and n ∈ Z+, is designated as J ₁, J ₂..., J _n; The automatic merger of figure layer data that each stage produces is under this stage:

There is a layer in 1st stage, was designated as L ₁ ¹, L ₂ ¹..., L _a(a ∈ Z+);

There is b layer in 2nd stage, was designated as L ₁ ², L ₂ ²..., L _b(b ∈ Z+);

There is c layer in 3rd stage, was designated as L ₁ ³, L ₂ ³..., L _c(c ∈ Z+);

……

There is i layer in n-th stage, was designated as L ₁ ⁿ, L ₂ ⁿ..., L _i(i ∈ Z+);

Wherein, Z+ is positive integer; (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) between context on subsistence logic, associated by the inherent cause and effect feature of life cycle, there is not one_to_one corresponding each other;

Specifically comprise the following steps:

Determine coordinate and show the step of current corresponding progress msg for one: first clicking position according to project plot determines coordinate by space position parameter determination module, is designated as P(X, Y); Space position parameter P(X, Y to having determined) and (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) be total to (a+b+c+ ... + i) set up GIS topological relation between individual layer, in each layer, be met the project information R of requirement successively ₁, R ₂..., R _m(m ∈ Z+, (R ₁, R ₂..., R _m) be (a+b+c+ ... + i) set of project information under some layer in individual layer), in units of the time, carry out descending sort, judge maximal value R _iin time field whether identical with information updating year field, if so, then by R _ias current record, sundry item information R ₁, R ₂..., R _i-1, R _i+1..., R _mhistorical record H is set to successively according to the time ₁, H ₂..., H _m-1, according to display rule display space figure in map, display attribute information on project process bar;

A step of carrying out progress msg renewal in real time: automatically early warning is carried out to the Up-to-date state of each session information by wisdom monitoring modular according to divided stages rule and display rule, and carry out the renewal of project information, during renewal, foundation following steps:

Step 1.1, project information update module is not most news for determining coordinate and showing the project information that obtains in the step of current corresponding progress msg, according to the preliminary renewal of GIS topological relation model finished item information;

Step 1.2, project information auditing module is according to auditing rule model and topological relation, audit for the preliminary lastest imformation of the project obtained in step 1.1, judge whether itself and other session information of soil Life cycle are consistent, and select to perform according to result:

Select execution one: if inconsistent, then get back to step 1.1 and again upgrade,

Select execution two: if consistent, then according to the regular display items display space diagram of display and attribute information;

One upgrades the rear step showing historical data: after project information auditing module selects execution two, the project information before renewal is as historical data H ₁, H ₂..., H _m-1enter into historical data base, and at layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) progress msg display field on carry out inverted order arrangement with the time respectively, system default display current project information, do not show when historical information is not selected; If selection historical information, progress msg hurdle display historical status information, map shows the space diagram that historical information is corresponding, each stage and layer color are consistent.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, definition: under normal circumstances, J ₁, J ₂..., J _nstage is corresponding color A respectively ₁, A ₂..., A _ndefine color M is the background color of historical data title, define color Y is the background color being in the non-selected layer title of state of activation, definition is in state of activation and is L by the layer selected, also be called current layer, on project implementation progress hurdle, under each stage, the definition rule of layer title background color is:

1st stage, L ₁ ¹, L ₂ ¹..., L _ain be in state of activation and can by the Show Color of layer L selected and A ₁be consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select;

2nd stage, L ₁ ², L ₂ ²..., L _bin be in state of activation and by the Show Color of layer L selected and A ₂be consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select;

3rd stage, L ₁ ³, L ₂ ³..., L _cin be in state of activation and by the Show Color of layer L selected and A ₃be consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select;

……

N-th stage, L ₁ ⁿ, L ₂ ⁿ..., L _iin be in state of activation and by the Show Color of layer L selected and A _nbe consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, describedly determine coordinate and show in the step of current corresponding progress msg, space position parameter P(X, Y to having determined) with layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) between to set up the concrete grammar of GIS topological relation as follows: judge current spatial location parameter P(X, Y) with layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) between position relationship, the project being met requirement is designated as Q, and according to judged result select perform step:

Select execution one: if point and polygon, concrete steps building topology relationship step is as follows:

Step 2.1, for life cycle each stage, layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) all comprise space position parameter P(X, Y), then at layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) in be met the project Q of requirement;

Step 2.2, if layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) entirely do not comprise space position parameter P(X, Y), comprise P(X, Y) layer be designated as set Lx, do not comprise P(X, Y) layer be designated as set Ly, in Lx, be met the project Q of requirement;

Step 2.3, if layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) all do not comprise space position parameter P(X, Y), then the project Q being met requirement, for empty, return and determines coordinate and the step showing current corresponding progress msg;

Select execution two: for step 2.2, again carry out polygon and polygonal topological relation judges, concrete steps be based on: F(r)=R(Lx, Ly), wherein, Lx is for comprising P(X, Y) layer set, Ly is not for comprising P(X, Y) layer set, Lx ∈ ((L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i)), Ly ∈ ((L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i)), Lx ≠ Ly, F(r) represent topological relation between Lx and Ly, i.e. F(r) ∈ (disjoint, meet, overlap, contains, cover), specifically:

Relation A, F(r)=disjoint, namely Lx and Ly from, then the project Q being met requirement in Ly is for empty;

Relation B, F(r)=meet, namely Lx and Ly connects, regardless of P(X, Y) and whether be this phase contact, in layer Ly, be met the project Q of requirement for empty;

Relation C, F(r)=overlap, namely Lx and Ly is overlapping, then in Ly, be met the project Q of requirement;

Relation D, F(r)=contain, namely Lx comprises Ly, then in Ly, be met the project Q of requirement;

Relation E, F(r)=cover, namely Lx covers Ly, then in Ly, be met the project Q of requirement.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, in described step 1.1, not as follows for completing the preliminary concrete steps upgraded time up-to-date for the project information obtained:

Step 1.11, project information currency check will determine coordinate and show the maximal value obtained in the step of current corresponding progress msg to be R _iproject examination time field value and information updating year field compare, if unequal, be then judged to be this project need upgrade;

Step 1.12, according to the field information comprised in current layer L, the attribute information that typing is relevant with project;

Step 1.13, uploads the accessory information relevant with this project, as materials such as related description document, policies and regulations file, technical manual, meeting summaries;

Step 1.14, judges whether the CAD figure of this project exists, if exist, is then carrying out uploading in system after necessary topology checks T1; If there is no CAD figure, then directly can draw in current map according to the location expression information in project drawing and attribute;

Step 1.15, based on the topological relation of GIS foundation with check it is CAD figure and current layer L building topology relation that step 1.14 is obtained, judge that whether it is crossing with other figures in L, if intersect, again upload after needing to remodify or draw CAD figure;

Step 1.16, the project information obtained for above step carries out preliminary hearing, judges errorless rear submission examination & verification.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, in described step 1.14, described topology check the rule of T1 be based on: CAD figure closes, and figure is self intersection not, does not have unnecessary line segment; CAD figure coordinate is without skew, and coordinate system and current map are consistent.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, in described step 1.2, the concrete steps of project information examination & verification are as follows:

Step 1.21, the feature according to each layer sets up auditing rule model, comprises the examination & verification of the examination & verification of item attribute information, the examination & verification of accessory information and CAD figure;

Step 1.22, the examination & verification of item attribute information judges according to the descriptor in annex and with the related information of other layer;

Step 1.23, the examination & verification of accessory information is whether the APPENDIX MATERIALSThat examination & approval specify and item attribute information description judgement provides that foundation is relevant meets the demands;

Step 1.24, the examination & verification of CAD figure the map-making parcel layer in itself and land deeds is carried out topology check T2, judges whether it meets topological requirement;

Step 1.25, meets for step 1.24 the CAD figure that different topology requires to obtain, encodes with carrying out ancestor according to the rule of correspondence;

Step 1.26, audits the project information submitted to according to auditing rule model, if meet the demands, then fills in msu message and preserve; If do not meet the demands, be then retracted into step 3 and modify perfect;

Step 1.27, for the project met the demands in step 1.26, carries out associating comparison with the map data mining platform under other stages of soil Life cycle by it, judges whether it is consistent with other stages, if be consistent, then current state be set to and audit; If inconsistent, be then retracted into step 1.2 and modify perfect;

Step 1.28, for the project met the demands in step 1.27, according to the regular display items display space diagram of display and attribute information.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, in described step 1.24, described topology checks that the rule of T2 is based on F(r)=R(Lx, Ly) wherein, Lx represents CAD figure, and Ly is map-making parcel layer, F(r) topological relation between Lx and Ly is represented, i.e. F(r) ∈ (disjoint, meet, overlap, contain, cover, coveredby, equal, inside);

Coded system A, F(r)=disjoint, namely Lx and Ly from, according to ancestor ground coding rule project is encoded;

Coded system B, F(r)=meet, namely Lx and Ly connects, and encodes to project according to ancestor ground coding rule;

Coded system C, F(r)=overlap, namely Lx and Ly is overlapping, carries out cadastral inventory, is numbered according to investigation result;

Coded system D, F(r)=contain, namely Lx comprises Ly, automatic acquisition ancestor ground numbering;

Coded system E, F(r)=cover, namely Lx covers Ly, automatic acquisition ancestor ground numbering;

Coded system F, F(r)=coveredby, namely Lx is covered in Ly, automatic acquisition ancestor ground numbering;

Coded system G, F(r)=equal, namely Lx and Ly is completely equal, automatic acquisition ancestor ground numbering;

Coded system H, F(r)=inside, namely Lx is contained in Ly, automatic acquisition ancestor ground numbering.

At above-mentioned a kind of soil Life cycle wisdom monitoring and managing method based on GIS, the early warning of described wisdom monitoring modular be based on:

Condition one: whether the color in soil Life cycle each stage is consistent with the color preset, if there is color M, project process bar automatic early-warning has needed renewal for this session information; If either phase color is consistent with pre-set color, but is in unactivated state, project process bar automatic early-warning for this session information need upgrade; If either phase has occurred grey and has been in unactivated state, project process bar automatic early-warning has been needs renewal;

Condition two: whether the layer that soil Life cycle each stage comprises is in state of activation and is not color M, if related layer is in unactivated state and be in color M, project process bar automatic early-warning is that the project information in this layer needs to upgrade;

Condition three: front several stage J of soil Life cycle ₁, J ₂... J _icolor and the solid colour preset, rear several stage J _i+1, J _i+2... J _nbe in unactivated state for grey, show that the current progress of implementation of this project is in the Ji stage.

Therefore, tool of the present invention has the following advantages: can carry out degree of depth excavation to Land_use change and city planning information and associate with organic, change traditional data static visual expression and individual event update mode, allow data stream move up.By soil Life cycle division rule and information displaying rule, existing information is carried out in real time, comparison intuitively and sign, intellectual monitoring and early warning are carried out to the project implementation progress in soil life cycle each stage, thus realize upgrading in time and effective utilization of information, for Land_use change and urban planning administration provide technical support.

Accompanying drawing explanation

Fig. 1 is the soil Life cycle wisdom monitoring and managing method block diagram based on GIS;

Fig. 2 is soil Life cycle process flow diagram;

Fig. 3 A plans phased project progress of implementation schematic diagram in the embodiment of the present invention;

Fig. 3 B intends in the embodiment of the present invention storing up phased project progress of implementation schematic diagram;

Fig. 3 C has stored up phased project progress of implementation schematic diagram in the embodiment of the present invention;

Fig. 3 D is land supply phased project progress of implementation schematic diagram in the embodiment of the present invention;

Fig. 3 E is that in the embodiment of the present invention, pipe phased project progress of implementation schematic diagram is built in planning;

Fig. 3 F is the schematic diagram of history of existence information under layer in the embodiment of the present invention;

Fig. 4 A is programming phase Reserves Program layer project information update module schematic diagram in soil Life cycle in the embodiment of the present invention;

Fig. 4 B is programming phase Reserves Program layer project information auditing module schematic diagram in soil Life cycle in the embodiment of the present invention;

Fig. 4 C intends storing up stage deposit will put layer project information update module schematic diagram in soil Life cycle in the embodiment of the present invention;

Fig. 4 D intends storing up stage deposit will put layer project information auditing module schematic diagram in soil Life cycle in the embodiment of the present invention;

Fig. 4 E has stored up the stage to impose complete letter of confirmation layer project information update module schematic diagram in soil Life cycle in the embodiment of the present invention;

Fig. 4 F has stored up the stage to impose complete letter of confirmation layer project information auditing module schematic diagram in soil Life cycle in the embodiment of the present invention;

Fig. 4 G is that in the embodiment of the present invention, in soil Life cycle, supply stage openly conclusion of the business information layer project information upgrades and auditing module schematic diagram;

Fig. 4 H is that in the embodiment of the present invention, in soil Life cycle, the planning permit of construction engineering layer project information renewal of pipe stage and auditing module schematic diagram are built in planning;

Fig. 5 A is wisdom monitoring modular Showplan stage and stored up session information schematic diagram to be updated in example of the present invention;

Fig. 5 B is wisdom monitoring modular display land supply session information schematic diagram to be updated in example of the present invention;

Fig. 5 C is that in the embodiment of the present invention, the current plan that is in of wisdom monitoring modular display enforcement project stores up the stage;

To be that in the embodiment of the present invention, wisdom monitoring modular display enforcement project is current be in the land supply stage to Fig. 5 D, is about to enter planning and builds the pipe stage;

Fig. 6 is that in the embodiment of the present invention, soil Life cycle divides schematic diagram.

Embodiment

Below by embodiment, and by reference to the accompanying drawings, technical scheme of the present invention is described in further detail.

Embodiment:

Introduce the concrete case study on implementation in conjunction with said method below.

(1), first, we define the soil life cycle implemented in embodiment, in the present embodiment, the layer in soil Life cycle each stage is stored in two strange land databases, be database 1 and database 2 respectively, all can embody current and each phase of the cycles situation that is history, wherein:

Database 1 includes 4 stages, database 2 comprises 1 stage, causalnexus is there is between the layer that in database 1,4 stages comprise, there is causalnexus between the layer that in database 1, in the layer that comprises of 4 stages and database 2,1 stage comprises, between the layer that in database 2,1 stage comprises, there is causalnexus.

The automatic merger of figure layer data that each stage produces is under this stage:

Soil Life cycle is divided into A, B, C, D, E double teacher, as shown in Figure 6:

1st stage A represents programming phase, has A ₁, A ₂, A ₃, A ₄four layer, represent that plan, three old transformation plans, land bank plan, land supply plan are imposed in house successively.

2nd stage B represents that plan stores up the stage, has B ₁, B ₂, B ₃, B ₄, B ₅five layer, represent planning, deposit main points, newly-increased construction land declaration, newly-increased construction land reply, three old enforcements successively.

3rd stage C represents and stores up the stage, has C ₁, C ₂, C ₃three layer, represent successively and impose complete letter of confirmation, withdrawal (purchasing) indemnity agreement, construction land letter of ratification.

4th stage D represents the supply stage, has D ₁, D ₂, D ₃, D ₄, D ₅five layer, represent successively Planners duties, for meeting, openly strike a bargain information, land supply, land registration issue licence.

5th stage E represents that the pipe stage is built in planning, has E ₁, E ₂, E ₃, E ₄four layer, represent that plan for land licence, planning permit of construction engineering, municipal engineering planning licence, planning condition examine proof successively.

Under normal circumstances, A, B, C, D, E double teacher respectively corresponding color is red, yellow, orange, green, purple, and definition historical data color is Dark grey, and definition current layer is L, and under each stage, the definition rule of layer color is:

Under 1st stage A, land supply plan layer is in state of activation and is selected, and color is consistent with A, is redness.House collection plan, three old transformation plans, land bank plan three layer are in unactivated state, and font grey represents, background is white, as Fig. 3 A.

Under 2nd stage B, deposit will be put layer and is in state of activation and selected, and color is consistent with B, is yellow, and all the other four each and every one layer are all in unactivated state, and font grey represents, background is white, as Fig. 3 B.

Under 3rd stage C, impose complete letter of confirmation layer and be in state of activation and selected, color is consistent with C, for orange.Withdrawal (purchasing) indemnity agreement, construction land letter of ratification two layer are in unactivated state, and font grey represents, background is white, as Fig. 3 C.

Under 4th stage D, Planners duties layer is in state of activation and is selected, and color and D are consistent, and is green.Be in state of activation not by selection mode for ground meeting, openly information, land supply, land registration four layer of issuing licence that strike a bargain, font black represents, background is white, as Fig. 3 D.

Under 5th stage E, plan for land licence layer is in state of activation and is selected, and color and E are consistent, and is purple.Its excess-three layer is in unactivated state, and font grey represents, background is white, as Fig. 3 E.

(2), then start to carry out concrete operations, concrete grammar is: (2.1), one determine coordinate and show the step of current corresponding progress msg: first click position according to project plot by space position parameter determination module and determine coordinate, be designated as P(X, Y); Space position parameter P(X, Y to having determined) and (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) set up GIS topological relation between totally 21 layer, in each layer, be met the project information of requirement successively, suppose that the current generation is B, current layer is L, and the project information obtained in L is designated as R ₁, R ₂..., R _m(m ∈ Z+), in layer L, the attribute field of each project is identical, and space diagram is different from property value.In units of time field, carry out descending sort, judge maximal value R _iin time field whether identical with information updating year field, if so, then by R _ias current record, sundry item information R ₁, R ₂..., R _i-1, R _i+1..., R _mhistorical record H is set to successively according to the time ₁, H ₂..., H _m-1, in the project implementation progress bar B-stage L layer under show R _iattribute information, in current map, show R _ispace diagram, historical record in tag form (history 1, history 2, history 3 ..., history m-1) be presented at the lower left corner of progress of implementation, if click history 1, then at the attribute information of the L layer display history 1 of B-stage, in current map, show the space diagram of history 1.

Space position parameter P(X, Y to having determined) and layer (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) between to set up the concrete grammar of GIS topological relation as follows: judge current spatial location parameter P(X, Y) with layer (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) between position relationship, and according to judged result select perform step:

Select execution one: if point and polygon, concrete steps building topology relationship step is as follows:

Step 2.1, for life cycle each stage, (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) totally 21 layer all comprise space position parameter P(X, Y), then in 21 layer, be met the project of requirement respectively.

Step 2.2, if (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) totally 21 layer entirely do not comprise space position parameter P(X, Y), comprise P(X, Y) layer have (A ₁, A ₂, B ₂, C ₂, D ₄, E ₃) totally 6, do not comprise P(X, Y) layer have all the other 15, in 6 layer, be met the project of requirement respectively.

Step 2.3, (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) totally 21 layer all do not comprise space position parameter P(X, Y), then the project being met requirement, for empty, return and determines coordinate and the step showing current corresponding progress msg.

Select execution two: for step 2.2, again carry out polygon and polygonal topological relation judges, concrete steps be based on: F(r)=R(Lx, Ly), wherein, Lx ∈ (A ₁, A ₂, B ₂, C ₂, D ₄, E ₃), Ly ∈ (A ₃, A ₄, B ₁, B ₃, B ₄, B ₅, C ₁, C ₃, D ₁, D ₂, D ₃, D ₅, E ₁, E ₂, E ₄), Lx ≠ Ly, F(r) represent the topological relation in 6 layer and Ly between 15 layer in Lx, i.e. F(r) ∈ (disjoint, meet, overlap, contains, cover), with A in Lx ₁, 15 layer in Ly are example, specifically:

Relation A, F(r)=disjoint, namely A1 respectively with the layer of 15 in Ly from, then the project being met requirement in 15 layer of Ly is respectively all empty.

Relation B, F(r)=meet, namely A1 connects with the layer of 15 in Ly respectively, regardless of P(X, Y) whether be and 15 of 15 layer phase contacts that the project being met requirement in 15 layer is respectively all empty.

Relation C, F(r)=overlap, namely A1 is overlapping with the layer of 15 in Ly respectively, then in 15 layer of Ly, be met the project of requirement respectively.

Relation D, F(r)=contain, namely A1 comprises 15 layer in Ly, then in 15 layer of Ly, be met the project of requirement respectively.

Relation E, F(r)=cover, namely A1 covers 15 layer in Ly, then in 15 layer of Ly, be met the project Q of requirement respectively.

For 5 layer of other in Lx, the determination methods of topological relation and A ₁identical.

Relate in the present embodiment, specific explanations is (as shown in Fig. 3 A to 3E), when click current required for check soil time, clicking coordinate is P(X, Y), first carry out point and polygonal topological relation judges.

At programming phase, due to P(X, Y) be included in certain plot of land supply plan, therefore obtain " Jianghan Road also builds building project " in the land supply plan layer of programming phase, in project implementation progress hurdle, show its attribute information, display space figure in current map, historical information is empty, and plan and land supply plan background color are red, and other layer title font colors are grey, representing does not have data not optional, as shown in Figure 3A.

The stage is stored up in plan, due to P(X, Y) be included in deposit will put in certain plot of layer, lay in the project information will putting layer under therefore obtaining intending the stage of storing up, in project implementation progress hurdle, show its attribute information, display space figure in current map, historical information is empty, and intend storing up and will put background color for yellow with laying in, other layer title font colors are grey, representing does not have data not optional, as shown in Figure 3 B.

Storing up the stage, due to P(X, Y) be not included in the complete letter of confirmation layer of collection, therefore polygon is carried out and polygonal topological relation judges, space diagram deposit will being put " land bank (Wuhan Elevator Factory plot) " in layer and the collection complete letter of confirmation layer stored up under the stage carry out topological relation of inclusion judgement, obtain corresponding layer project information, its attribute information is shown in project implementation progress hurdle, display space figure in current map, historical information is empty, it is orange for having stored up and imposed complete letter of confirmation background color, other layer font colors are grey, representing does not have data not optional, as shown in Figure 3 C.

In the supply stage, due to P(X, Y) be included in certain plot of Planners duties layer, therefore the project information of Planners duties layer under the supply stage is obtained, its attribute information is shown in project implementation progress hurdle, display space figure in current map, historical information is empty, due to P(X, Y) be also contained in other layer under the supply stage, but only have Planners duties layer to be selected, therefore supply and Planners duties layer background color are green, other layer font colors are black, if selected, its background color becomes green, Planners duties layer font becomes black again, as shown in Figure 3 D.

The pipe stage is built in planning, due to P(X, Y) be included in certain plot of plan for land licence layer, therefore obtain planning the project information of building plan for land licence layer under the pipe stage, in project implementation progress hurdle, show its attribute information, display space figure in current map, historical information is empty, and pipe is built in planning and plan for land licence background color is purple, and other layer font colors are grey, representing does not have data not optional, as shown in FIGURE 3 E.

It is pointed out that the above-mentioned concrete color related to, because reason submitted to by text, the color of submission does not conform to the above-mentioned actual displayed color mentioned of reality, is hereby described.

(2.2), one is carried out the step of progress msg renewal in real time: automatically carry out early warning to the Up-to-date state of each session information by wisdom monitoring modular according to divided stages rule and display rule, and carry out the renewal of project information, during renewal, according to following steps:

Step 1.1, project information update module is not most news for determining coordinate and showing the project information that obtains in the step of current corresponding progress msg, and according to the preliminary renewal of GIS topological relation model finished item information, concrete grammar is:

Step 1.11, project information currency check will determine coordinate and show the maximal value obtained in the step of current corresponding progress msg to be R _iproject examination time field value and the information updating time compare, if unequal, be then judged to be this project need upgrade.Definition current layer L is Reserves Program layer, finds P(X, Y) the plot Reserves Program loss of learning that clicks.

Step 1.12, according to the field information comprised in Reserves Program layer, the attribute information that typing is relevant with project, as shown in Figure 4 A.

Step 1.13, uploads the accessory information relevant with this project, as materials such as related description document, policies and regulations file, technical manual, meeting summaries, as shown in Figure 4 A.

Step 1.14, judges whether the CAD figure of this project exists, if exist, is then carrying out uploading in system after necessary topology checks T1.If there is no CAD figure, then directly can draw in current map according to the location expression information in project drawing and attribute; Topology check the rule of T1 be based on: CAD figure closes, and figure is self intersection not, does not have unnecessary line segment; CAD figure coordinate is without skew, and coordinate system and current map are consistent.

Step 1.15, based on the topological relation of GIS foundation with check it is CAD figure and current layer L building topology relation that step 1.14 is obtained, judge that whether it is crossing with other figures in L, if intersect, again upload after needing to remodify or draw CAD figure, as shown in Figure 4 A.

Step 1.16, the project information obtained for above step carries out preliminary hearing, judges errorless rear submission examination & verification, as shown in Figure 4 A.

Step 1.2, project information auditing module is according to auditing rule model and topological relation, audit for the preliminary lastest imformation of the project obtained in step 1.1, judge whether itself and other session information of soil Life cycle are consistent, and select to perform according to result:

Select execution one: if inconsistent, then get back to step 1.1 and again upgrade,

Select execution two: if consistent, then according to the regular display items display space diagram of display and attribute information.

Concrete grammar is:

Step 1.21, the feature according to each layer sets up auditing rule model, comprises the examination & verification of the examination & verification of item attribute information, the examination & verification of accessory information and CAD figure, as shown in Figure 4 B.

Step 1.22, the examination & verification of item attribute information judges according to the descriptor in annex and with the related information of other layer.

Step 1.23, the examination & verification of accessory information is whether the APPENDIX MATERIALSThat examination & approval specify and item attribute information description judgement provides that foundation is relevant meets the demands.

Step 1.24, the examination & verification of CAD figure the map-making parcel layer in itself and land deeds is carried out topology check T2, judges whether it meets topological requirement; Topology check the rule of T2 be based on: F(r)=R(Lx, Ly) wherein, Lx represents CAD figure, and Ly is map-making parcel layer, F(r) represent topological relation between Lx and Ly, i.e. F(r) ∈ (disjoint, meet, overlap, contain, cover, coveredby, equal, inside).

Coded system A, F(r)=disjoint, namely Lx and Ly from, according to ancestor ground coding rule project is encoded.

Coded system B, F(r)=meet, namely Lx and Ly connects, and encodes to project according to ancestor ground coding rule.

Coded system C, F(r)=overlap, namely Lx and Ly is overlapping, carries out cadastral inventory, is numbered according to investigation result.

Coded system D, F(r)=contain, namely Lx comprises Ly, automatic acquisition ancestor ground numbering.

Coded system E, F(r)=cover, namely Lx covers Ly, automatic acquisition ancestor ground numbering.

F, F(r)=coveredby, namely Lx is covered in Ly, automatic acquisition ancestor ground numbering.

G, F(r)=equal, namely Lx and Ly is completely equal, automatic acquisition ancestor ground numbering.

H, F(r)=inside, namely Lx is contained in Ly, automatic acquisition ancestor ground numbering.

Step 1.25, meets for step 1.24 the CAD figure that different topology requires to obtain, encodes with carrying out ancestor according to the rule of correspondence, and coding fills in remarks column, as shown in Figure 4 B.

Step 1.26, audits the project information submitted to according to auditing rule model, if meet the demands, then fills in msu message and preserve.If do not meet the demands, be then retracted into step 3 and modify perfect.

Step 1.27, for the project met the demands in step 1.26, carries out associating comparison with the map data mining platform under other stages of soil Life cycle by it, judges whether it is consistent with other stages, if be consistent, then current state be set to and audit.If inconsistent, be then retracted into step 1.2 and modify perfect.

Step 1.28, for the project met the demands in step 1.27, according to the regular display items display figure of display and attribute information.(2.3), one upgrades the step of rear display historical data: after project information auditing module selects execution two, the project information before renewal is as historical data H ₁, H ₂..., H _m-1enter into historical data base, and at layer (A ₁, A ₂, A ₃, A ₄), (B ₁, B ₂, B ₃, B ₄, B ₅), (C ₁, C ₂, C ₃), (D ₁, D ₂, D ₃, D ₄, D ₅), (E ₁, E ₂, E ₃, E ₄) progress msg display field on carry out inverted order arrangement with the time respectively, system default display current project information, do not show when historical information is not selected, if selection historical information, progress msg hurdle display historical information, each stage and layer color remain unchanged, as shown in Figure 5 C.

In the present embodiment, the definition of above-mentioned all " the display rules " mentioned is: by select stage background color, acquiescence the state of activation that is in be a color by layer background color, the Show Color of current project in map selected, the space diagram of current project is presented on map, and attribute information is presented in project implementation progress hurdle.

It should be noted that, the early warning of wisdom monitoring modular is based on two conditions:

Condition one: whether the color in soil Life cycle each stage is consistent with the color preset, if there is color M, project process bar automatic early-warning for this session information need upgrade, as shown in Figure 5 B, the supply stage is Dark grey, its land registration information of issuing licence can not be selected, and illustrate that this session information is for empty, confirming after again verifying needs to upgrade; If either phase color is consistent with pre-set color, but be in unactivated state, project process bar automatic early-warning for this session information need upgrade, as shown in Figure 5A, although there are corresponding background color in plan and stage of having stored up, can not select, and there is " " symbol before the title of correspondence, after verifying, find that this project lacks land bank plan information and imposes complete letter of confirmation information, therefore need to upgrade, update mode is as Fig. 4 A, 4B, 4E and 4F.If either phase has occurred grey and has been in unactivated state, project process bar automatic early-warning has been needs renewal.

Condition two: whether the layer that soil Life cycle each stage comprises is in state of activation and is not color M, if related layer is in unactivated state and be in color M, project process bar automatic early-warning is that the project information in this layer needs to upgrade.

Condition three: front several stage J of soil Life cycle ₁, J ₂... J _icolor and the solid colour preset, rear several stage J _i+1, J _i+2... J _nbe in unactivated state for grey, show that the current progress of implementation of this project is in the Ji stage, as shown in Figure 5 D.Plan, intend storing up, store up, supply four-stage color and is all consistent with pre-set color, planning is below built the pipe stage and is in unactivated state, then show that this project proceeds to the supply stage at present, be about to enter planning and build the pipe stage.

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present invention or surmount the scope that appended claims defines.

Claims (8)

1. based on a soil Life cycle wisdom monitoring and managing method of GIS, it is characterized in that, based on definition: setting life cycle includes n stage, n>=2 and n ∈ Z+, is designated as J ₁, J ₂..., J _n; The automatic merger of figure layer data that each stage produces is under this stage:

There is a layer in 1st stage, was designated as L ₁ ¹, L ₂ ¹..., L _a(a ∈ Z+);

There is b layer in 2nd stage, was designated as L ₁ ², L ₂ ²..., L _b(b ∈ Z+);

There is c layer in 3rd stage, was designated as L ₁ ³, L ₂ ³..., L _c(c ∈ Z+);

……

There is i layer in n-th stage, was designated as L ₁ ⁿ, L ₂ ⁿ..., L _i(i ∈ Z+);

Wherein, Z+ is positive integer; (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) between context on subsistence logic, associated by the inherent cause and effect feature of life cycle, there is not one_to_one corresponding each other;

Specifically comprise the following steps:

Determine coordinate and show the step of current corresponding progress msg for one: first clicking position according to project plot determines coordinate by space position parameter determination module, is designated as P(X, Y); Space position parameter P(X, Y to having determined) and (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) be total to (a+b+c+ ... + i) set up GIS topological relation between individual layer, in each layer, be met the project information R of requirement successively ₁, R ₂..., R _m(m ∈ Z+, (R ₁, R ₂..., R _m) be (a+b+c+ ... + i) set of project information under some layer in individual layer), in units of the time, carry out descending sort, judge maximal value R _iin time field whether identical with information updating year field, if so, then by R _ias current record, sundry item information R ₁, R ₂..., R _i-1, R _i+1..., R _mhistorical record H is set to successively according to the time ₁, H ₂..., H _m-1, last according to display rule display space figure in map, display attribute information on project process bar;

A step of carrying out progress msg renewal in real time: automatically early warning is carried out to the Up-to-date state of each session information by wisdom monitoring modular according to divided stages rule and display rule, and carry out the renewal of project information, during renewal, foundation following steps:

Step 1.1, project information update module is not most news for determining coordinate and showing the project information that obtains in the step of current corresponding progress msg, according to the preliminary renewal of GIS topological relation model finished item information;

Step 1.2, project information auditing module is according to auditing rule model and topological relation, audit for the preliminary lastest imformation of the project obtained in step 1.1, judge whether itself and other session information of soil Life cycle are consistent, and select to perform according to result:

Select execution one: if inconsistent, then get back to step 1.1 and again upgrade,

Select execution two: if consistent, then according to the regular display items display space diagram of display and attribute information;

One upgrades the rear step showing historical data: after project information auditing module selects execution two, the project information before renewal is as historical data H ₁, H ₂..., H _m-1enter into historical data base, and at layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) progress msg display field on carry out inverted order arrangement with the time respectively, system default display current project information, do not show when historical information is not selected; If selection historical information, progress msg hurdle display historical status information, map shows the space diagram that historical information is corresponding, each stage and layer color are consistent.

2. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 1, is characterized in that, definition: under normal circumstances, J ₁, J ₂..., J _nstage is corresponding color A respectively ₁, A ₂..., A _ndefine color M is the background color of historical data title, define color Y is the background color being in the non-selected layer title of state of activation, definition is in state of activation and is L by the layer selected, also be called current layer, on project implementation progress hurdle, under each stage, the definition rule of layer title background color is:

1st stage, L ₁ ¹, L ₂ ¹..., L _ain be in state of activation and can by the Show Color of layer L selected and A ₁be consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select;

2nd stage, L ₁ ², L ₂ ²..., L _bin be in state of activation and by the Show Color of layer L selected and A ₂be consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select;

3rd stage, L ₁ ³, L ₂ ³..., L _cin be in state of activation and by the Show Color of layer L selected and A ₃be consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select;

……

N-th stage, L ₁ ⁿ, L ₂ ⁿ..., L _iin be in state of activation and by the Show Color of layer L selected and A _nbe consistent, do not selected, then represent with color Y, if be in unactivated state, represent by grey if be in state of activation, namely this stage countless certificate, can not select.

3. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 2, is characterized in that, describedly determines coordinate and shows in the step of current corresponding progress msg, space position parameter P(X, Y to having determined) with layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) between to set up the concrete grammar of GIS topological relation as follows: judge current spatial location parameter P(X, Y) with layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) between position relationship, the project being met requirement is designated as Q, and according to judged result select perform step:

Select execution one: if point and polygon, concrete steps building topology relationship step is as follows:

Step 2.1, for life cycle each stage, layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) all comprise space position parameter P(X, Y), then at layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) in be met the project Q of requirement;

Step 2.2, if layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) entirely do not comprise space position parameter P(X, Y), comprise P(X, Y) layer be designated as set Lx, do not comprise P(X, Y) layer be designated as set Ly, in Lx, be met the project Q of requirement;

Step 2.3, if layer (L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i) all do not comprise space position parameter P(X, Y), then the project Q being met requirement, for empty, return and determines coordinate and the step showing current corresponding progress msg;

Select execution two: for step 2.2, again carry out polygon and polygonal topological relation judges, concrete steps be based on: F(r)=R(Lx, Ly), wherein, Lx is for comprising P(X, Y) layer set, Ly is not for comprising P(X, Y) layer set, Lx ∈ ((L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i)), Ly ∈ ((L ₁ ¹, L ₂ ¹..., L _a), (L ₁ ², L ₂ ²..., L _b), (L ₁ ³, L ₂ ³..., L _c) ..., (L ₁ ⁿ, L ₂ ⁿ..., L _i)), Lx ≠ Ly, F(r) represent topological relation between Lx and Ly, i.e. F(r) ∈ (disjoint, meet, overlap, contains, cover), specifically:

Relation A, F(r)=disjoint, namely Lx and Ly from, then the project Q being met requirement in Ly is for empty;

Relation B, F(r)=meet, namely Lx and Ly connects, regardless of P(X, Y) and whether be this phase contact, in layer Ly, be met the project Q of requirement for empty;

Relation C, F(r)=overlap, namely Lx and Ly is overlapping, then in Ly, be met the project Q of requirement;

Relation D, F(r)=contain, namely Lx comprises Ly, then in Ly, be met the project Q of requirement;

Relation E, F(r)=cover, namely Lx covers Ly, then in Ly, be met the project Q of requirement.

4. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 1, is characterized in that being, in described step 1.1, not as follows for completing the preliminary concrete steps upgraded time up-to-date for the project information obtained:

Step 1.11, project information currency check will determine coordinate and show the maximal value obtained in the step of current corresponding progress msg to be R _iproject examination time field value and information updating year field compare, if unequal, be then judged to be this project need upgrade;

Step 1.12, according to the field information comprised in current layer L, the attribute information that typing is relevant with project;

Step 1.13, uploads the accessory information relevant with this project, as materials such as related description document, policies and regulations file, technical manual, meeting summaries;

Step 1.14, judges whether the CAD figure of this project exists, if exist, is then carrying out uploading in system after necessary topology checks T1; If there is no CAD figure, then directly can draw in current map according to the location expression information in project drawing and attribute;

Step 1.15, based on the topological relation of GIS foundation with check it is CAD figure and current layer L building topology relation that step 1.14 is obtained, judge that whether it is crossing with other figures in L, if intersect, again upload after needing to remodify or draw CAD figure;

Step 1.16, the project information obtained for above step carries out preliminary hearing, judges errorless rear submission examination & verification.

5. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 4, is characterized in that being, in described step 1.14, described topology check the rule of T1 be based on: CAD figure closes, and figure is self intersection not, does not have unnecessary line segment; CAD figure coordinate is without skew, and coordinate system and current map are consistent.

6. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 1, is characterized in that being, in described step 1.2, the concrete steps of project information examination & verification are as follows:

Step 1.21, the feature according to each layer sets up auditing rule model, comprises the examination & verification of the examination & verification of item attribute information, the examination & verification of accessory information and CAD figure;

Step 1.22, the examination & verification of item attribute information judges according to the descriptor in annex and with the related information of other layer;

Step 1.23, the examination & verification of accessory information is whether the APPENDIX MATERIALSThat examination & approval specify and item attribute information description judgement provides that foundation is relevant meets the demands;

Step 1.24, the examination & verification of CAD figure the map-making parcel layer in itself and land deeds is carried out topology check T2, judges whether it meets topological requirement;

Step 1.25, meets for step 1.24 the CAD figure that different topology requires to obtain, encodes with carrying out ancestor according to the rule of correspondence;

Step 1.26, audits the project information submitted to according to auditing rule model, if meet the demands, then fills in msu message and preserve; If do not meet the demands, be then retracted into step 1.12 and modify perfect;

Step 1.27, for the project met the demands in step 1.26, carries out associating comparison with the map data mining platform under other stages of soil Life cycle by it, judges whether it is consistent with other stages, if be consistent, then current state be set to and audit; If inconsistent, be then retracted into step 1.2 and modify perfect;

Step 1.28, for the project met the demands in step 1.27, according to the regular display items display space diagram of display and attribute information.

7. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 6, is characterized in that being, in described step 1.24, described topology check the rule of T2 be based on: F(r)=R(Lx, Ly) wherein, Lx represents CAD figure, Ly is map-making parcel layer, F(r) represent topological relation between Lx and Ly, i.e. F(r) ∈ (disjoint, meet, overlap, contain, cover, coveredby, equal, inside);

Coded system A, F(r)=disjoint, namely Lx and Ly from, according to ancestor ground coding rule project is encoded;

Coded system B, F(r)=meet, namely Lx and Ly connects, and encodes to project according to ancestor ground coding rule;

Coded system C, F(r)=overlap, namely Lx and Ly is overlapping, carries out cadastral inventory, is numbered according to investigation result;

Coded system D, F(r)=contain, namely Lx comprises Ly, automatic acquisition ancestor ground numbering;

Coded system E, F(r)=cover, namely Lx covers Ly, automatic acquisition ancestor ground numbering;

Coded system F, F(r)=coveredby, namely Lx is covered in Ly, automatic acquisition ancestor ground numbering;

Coded system G, F(r)=equal, namely Lx and Ly is completely equal, automatic acquisition ancestor ground numbering;

Coded system H, F(r)=inside, namely Lx is contained in Ly, automatic acquisition ancestor ground numbering.

8. a kind of soil Life cycle wisdom monitoring and managing method based on GIS according to claim 2, is characterized in that being, the early warning of described wisdom monitoring modular be based on:

Condition one: whether the color in soil Life cycle each stage is consistent with the color preset, if there is color M, project process bar automatic early-warning has needed renewal for this session information; If either phase color is consistent with pre-set color, but is in unactivated state, project process bar automatic early-warning for this session information need upgrade; If either phase has occurred grey and has been in unactivated state, project process bar automatic early-warning has been needs renewal;

Condition two: whether the layer that soil Life cycle each stage comprises is in state of activation and is not color M, if related layer is in unactivated state and be in color M, project process bar automatic early-warning is that the project information in this layer needs to upgrade;

Condition three: front several stage J of soil Life cycle ₁, J ₂... J _icolor and the solid colour preset, rear several stage J _i+1, J _i+2... J _nbe in unactivated state for grey, show that the current progress of implementation of this project is in the Ji stage.