CN105469443B - Based on geotraverse(PRB)The method that process Data fuse generates three-dimensional geological figure - Google Patents
Based on geotraverse(PRB)The method that process Data fuse generates three-dimensional geological figure Download PDFInfo
- Publication number
- CN105469443B CN105469443B CN201410522738.4A CN201410522738A CN105469443B CN 105469443 B CN105469443 B CN 105469443B CN 201410522738 A CN201410522738 A CN 201410522738A CN 105469443 B CN105469443 B CN 105469443B
- Authority
- CN
- China
- Prior art keywords
- prb
- geological
- section
- dimensional
- modeling
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Consolidation Of Soil By Introduction Of Solidifying Substances Into Soil (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
- Investigation Of Foundation Soil And Reinforcement Of Foundation Soil By Compacting Or Drainage (AREA)
- Geophysics And Detection Of Objects (AREA)
Abstract
The invention discloses a kind of geotraverses(PRB)The method that Data fuse generates three-dimensional geological figure, further includes the step of the step of including carrying out PRB planar hull modellings according to PRB field data collections and measured section and obtaining geology real material figure or compliation manuscipt geologic map according to the PRB planar hull modellings:A, the step of logical constraint being carried out to PRB sections;B, the step of deep modeling being carried out to PRB and measured section;C, according to the step of PRB data acquisition geological boundary occurrence;D, the step of generating three-dimensional geologic structure/tomography screen work figure;E, the step of generating three-dimensional PRB section fence diagrams;F, PRB sections combine the step of modeling with geologic map;And the step of G, generation three-dimensional geological figure., can be synchronous with Field geologic survey and mapping process by the process of three-dimensional modeling using the method for the present invention, and start from the acquisition of field PRB data and measured geological section acquire synchronize modeled, modeling efficiency can be greatly improved.
Description
Technical field
The present invention relates to three-dimensional geological charting technical applications more particularly to one kind to be based on geotraverse(PRB)Process
The method that Data fuse generates three-dimensional geological figure.
Background technology
Field geology route and measured geological section three-dimensional geological charting modeling are a kind of applied to 3D region geology tune
Look into the modeling method investigated with mineral product geology.By geotraverse in the horizontal direction(Plane)And depth direction(Section)Research
And Geologic modeling, dynamic generation geologic map, and on this basis, under geologic map frame and route section frame double constraints,
By the modeling tool of surface model method, the three-dimensional geological figure with certain depth is automatically generated.
At present, in terms of three-dimensional charting, the total present situation of international and domestic development is:1)In terms of modeling method, it is big to be divided into two
Class, one kind are structures(Also referred to as face)Modeling, another kind of is model attributes.2)In terms of modeling procedure, particularly structural modeling is
On the basis of data with existing(This modeling directly starts from field data collection process), by geology, geophysics, geochemical
The comprehensive analysis of etc. data, is initially formed geologic section, then generates three-dimensional geologic according to section.
But above-mentioned modeling technique has the following problems:1)Modeling process and regional geologic reconnaissance, Regional Minerals investigation cannot
It is synchronous, i.e., cannot during geologic survey Real-time modeling set.2)The inefficiency of modeling.The modeling effect that according to Britain the office of tune provides
Rate standard is 1:50000, systematicness modeling is average about to be needed 200 days.The country carries out 1 using external software:50000 three-dimensional geological screen works essence
The modeling of degree needs 120 days.As it can be seen that inefficiency is the general character of current modeling software.If without new modeling method, efficiency resistance
Hinder the bottleneck of application still can not solve.
Invention content
In view of this, it is a kind of based on geotraverse it is a primary object of the present invention to provide(PRB)Process Data fuse is given birth to
It is into the method for three-dimensional geological figure, the process of three-dimensional modeling is synchronous with Field geologic survey and mapping process, and start from field geology
Route data acquire and measured geological section acquire synchronize modeled.
In order to achieve the above objectives, the technical proposal of the invention is realized in this way:
A kind of method of geotraverse PRB Data fuses generation three-dimensional geological figure, including according to PRB field data collections and
Measured section carries out the step of PRB planar hull modellings and obtains geology real material figure or compliation manuscipt according to the PRB planar hull modellings
The step of geologic map, this method further include:
A, the step of logical constraint being carried out to PRB sections;
B, the step of deep modeling being carried out to PRB and measured section;
C, according to the step of PRB data acquisition geological boundary occurrence;
D, the step of generating three-dimensional geologic structure/tomography screen work figure;
E, the step of generating three-dimensional PRB section fence diagrams;
F, PRB sections combine the step of modeling with geologic map;
G, the step of generating three-dimensional geological figure.
Wherein, further comprise after step G:
H, using geophysics, geochemistry, the integration of borehole data and comprehensive analysis it the step of, specifically includes:According to
Lithology rank, Usage profile data participate in modeling, are cutd open including the geologic section that is connected according to borehole data, GEOPHYSICAL EXPLANATION
Face;On the basis of geotraverse section and geological plane maps modeling achievement, by geologic section, the section group of GEOPHYSICAL EXPLANATION
A series of separate unit is divided into palisade section, then by palisade section;For each separate unit, fine interaction is used
Modeling tool obtains fine three dimensional structure model, then the subtle three-dimensional model of all units is merged, and is entirely modeled
The subtle three-dimensional model in region.
Wherein, logical constraint is carried out to PRB sections described in step A, including:
When PRB data acquisition, cross-sectional data acquisition and geological plane maps tentatively generate after, system according to geological map,
Geotraverse sectional view, geology measured section figure carry out logical constraint calculating to geotraverse section, are closed for correct geologic body
System carries out logic modeling.
Deep modeling is carried out to PRB and measured section described in step B, including:
B1, original route section is generated, and show in three-dimensional scenic according to PRB data;
B2, according to research precision, improve route section in depth direction;
B3, according to comprehensive analysis or deep data, carry out the modeling of geotraverse depth profiled direction, and dynamic generation has one
The three-dimensional geological figure of depthkeeping degree.
Described in step C according to the step of PRB data acquisition geological boundary occurrence, including:
Sample searches are carried out or using distance weighted using the occurrence of closest point or the buffering area of setting certain distance
Occurrence interpolation is carried out, while considers the segmentation trend of geological boundary, is effectively included in geology semantic constraint.
The step of three-dimensional geologic structure/tomography screen work figure is generated described in step D carries out single including the tomography to charting region
Solely modeling, using the fault line of segmentation as an entirety, further comprises:
D1, the step of being handled using tomography frame D modeling tool;And
D2, the step of handling is intersected to tomography.
PRB sections described in step F combine the step of modeling with geologic map, including:
F1, it is expanded to from less parallel section using horizontal geologic map geological boundary as frame, using route section as constraint, from
The dynamic body formed according to horizontal geological boundary face, according to the geological boundary experiment material geologic body depth direction in depth profiled direction
Form and relationship, automatically form body;Simultaneously according to the geological boundary form and relationship in depth profiled direction, geologic body is determined
Logical relation;
F2, the 4th are coating, the processing procedure of vein.
Step F1 further comprises using more intersecting routes sections and the continuous block integral of geological boundary under occurrence constraint
Method is inferred to the continuously and three-dimensionally matter boundary line of the following layering of earth's surface.
The step of three-dimensional geological figure is generated described in step G, including:Using the seamless modeling skill of region-wide geology body three-dimensional models
Art is incorporated with topological coherence detection in three-dimensional modeling flow, generates three-dimensional geological figure.
A kind of method of geotraverse PRB Data fuses generation three-dimensional geological figure, using Profile Modeling technology, including:
A, the pre-treatment step of model data (cross-sectional data being linked to be between borehole data or drilling);The pretreatment step
Suddenly it is necessary condition, otherwise can not generates, geologic mapping is no drilling;
B, the step of definition, explanation and delineation and generation of section;
C, the step of fence diagrams, interaction production volume elements and then generation geological model being generated by section;
D, the visualization of geological model and three dimensions inquiry and analytic process.
It is provided by the present invention to be based on geotraverse(PRB)The method that Data fuse generates three-dimensional geological figure has following
Advantage:
The method of the present invention passes through geotraverse(PRB)In the horizontal direction(Plane)And depth direction(Section)Research and ground
Matter models, dynamic generation geologic map(Real material figure, compliation manuscipt geologic map)With 3D geotraverse fence diagrams, and on this basis,
In geologic map(Or real material figure, compliation manuscipt geologic map)Under frame and 3D geotraverse fence diagrams frame double constraints, pass through face
The modeling tool of model method, automatically generates with certain depth(Depend on investigation precision)3D geologic maps(PRB Data fuse masters
Body).Compared with existing modeling efficiency, 30 times or more can be improved.Meanwhile in being modeled in 3D geologic maps deep, according to engineering, the earth
The methods of physics, acquired data carried out, and " target geological element " were modeled respectively and automatically integrated with 3D geologic maps,
Form earth's surface and the multi-source information 3D geologic maps of underground different scale.
Description of the drawings
Fig. 1 is the geotraverse of the present invention(PRB)Process Data fuse generates the process schematic of three-dimensional geological figure;
Fig. 2 is to be of the invention from field acquisition geotraverse(PRB) —>By depth integrated treatment->Three-dimensional geological route
Fence diagrams->Geologic map(Or real material figure, editor's geologic map)Frame and three-dimensional geological route fence diagrams frame double constraints
Pass through the specific implementation process schematic diagram of three-dimensional geological figure of the modeling tool of the surface model method generation with certain depth etc. down;
Fig. 3 is related to 36 element schematic diagrames of three categories for the constraint of PRB mathematical logics;
Fig. 4 is to generate original route automatically according to PRB data(Conveniently)Diagrammatic cross-section;
Fig. 5 is the original route of Fig. 4(Conveniently)Section is in three-dimensional scenic display effect schematic diagram;
Fig. 6, Fig. 7 are according to research precision, and route diagrammatic cross-section is improved in depth direction;
Fig. 8 is to carry out geotraverse depth profiled direction modeling process schematic diagram according to comprehensive analysis or deep data;
Fig. 9 is that the three-dimensional geological diagram that modeling dynamic generation shown in Fig. 8 has certain depth is intended to;
Figure 10 chooses procedure schematic diagram for occurrence point;
Figure 11 is that the occurrence point based on buffering area selects process schematic;
Figure 12 be by the Logic relationship analysis of geologic body, consider tomography, rock mass partition influence, to containing occurrence from
So continuous stratigraphic boundary carries out occurrence parameter transmittance process schematic diagram;
Figure 13 is the layer data schematic diagram in real material figure;
Figure 14 is tomography frame 3 d structure model schematic diagram;
Figure 15 is three-dimensional geologic structure(Tomography)Screen work figure is in three-dimensional scenic display effect schematic diagram;
Figure 16 is three-dimensional geologic structure shown in Figure 19(Tomography)Screen work figure amplification effect(Part)Schematic diagram;
Figure 17 is the process schematic to form geological mass;
Figure 18 is Seal treatment process schematic of the Quaternary Strata in section;
Figure 19 is the disposition schematic diagram for removing Quaternary Strata;
Figure 20 is that the three-dimensional geological to be formed diagram is intended to.
Specific embodiment
Below in conjunction with the accompanying drawings and the embodiment of the present invention is to geotraverse of the present invention(PRB)The generation of process Data fuse is three-dimensional
The method of geologic map is described in further detail.
The present invention begins at a kind of modeling method of field geology route and measured geological section three-dimensional geological charting modeling.
By geotraverse in the horizontal direction(That is plane)And depth direction(That is section)Research and Geologic modeling, dynamic generation geology
Figure, and on this basis, under geologic map frame and route section frame double constraints, pass through the modeling work of surface model method
Tool, automatically generates the three-dimensional geological figure with certain depth.It can be applied to 3D region geologic survey and mineral product geology investigation
Etc. technical fields.
The three-dimensional charting geotraverse of the present invention(PRB)The key technology of Data fuse has:
1st, three-dimensional charting geotraverse(PRB)Data fuse flow and method.
Establish the 3-dimensional digital geologic mapping flow and method consistent with digital seismic data flow.According to field route
Matter survey data acquires, and automatically generates route section.Pass through geotraverse(PRB)In the horizontal direction(Plane)And depth direction
(Section)Research and Geologic modeling, dynamic generation geologic map(Real material figure, compliation manuscipt geologic map), and on this basis,
Geologic map(Or real material figure, compliation manuscipt geologic map)Under frame and route section frame double constraints, pass through surface model method
Modeling tool is automatically generated with certain depth(Depend on investigation precision)3D geologic maps(PRB Data fuse main bodys)Complete stream
Journey and tool.
2nd, geotraverse section and geological plane maps modeling process.
1)Occurrence and the constraint principle of route section geological boundary;Route boundary line morphological constraints intensity is more than surface occurence.
2)Geological boundary occurrence estimating method;It selectes across geologic body route head and the tail(It is or adjacent)Occurrence by inclination angle and is inclined
To gradual segmentation transition, in segmentation geologic map geological boundary, fully consider that the influence of adjacent occurrence is chosen in segmentation.
3)Geological fault builds and intersects processing method;First consider by segmentation, integrally uniformly examined automatically according to tomography code
Consider, determine that the old and new cut relationship according to attribute.
3rd, with the processing method of adjacent geologic body topological relation:From route section to geologic map boundary line the one of three-dimensional
Bodyization processing.
4th, non-route geology body and the Automated generalization that geologic body intersects on geotraverse section, after cutting calculates, to body point
Redundance after cutting is handled again.
5th, the preliminary strategy of route section multilayered structure modeling, standardized codes connect automatically.
6th, structural model and attribute model construct technology, and structural model constrained attributes model boundary is Geological Model
Type provides condition with attribute model comprehensive analysis.
7th, model attributes model achievement with fine structure and model merging for achievement with geotraverse section with geological plane maps,
Database level directly exchanges.
Below in conjunction with the accompanying drawings to the three-dimensional charting geotraverse of the present invention(PRB)Data fuse flow, method and key portion
Part function is described in detail.
Fig. 1 is the geotraverse of the present invention(PRB)Process Data fuse generates the process schematic of three-dimensional geological figure.Fig. 2
It is the present invention from field acquisition geotraverse(PRB)—>By depth integrated treatment->Three-dimensional geological route fence diagrams->Ground
Matter figure(Or real material figure, editor's geologic map)Pass through surface model under frame and three-dimensional geological route fence diagrams frame double constraints
The specific implementation process schematic diagram of three-dimensional geological figure of the modeling tool generation with certain depth of method etc..
As shown in Figure 1 and Figure 2, this method mainly includes the following steps that:
Step 11:The step of logical constraint is carried out to geotraverse PRB sections.
Work as geotraverse(PRB)Data acquisition, cross-sectional data acquisition and geological plane maps(Modeling)After preliminary generation, system
According to geological map, geotraverse sectional view, geology measured section figure, logical constraint calculating is carried out to geotraverse section,
Logic modeling is carried out for correct geologic body relationship.
The constraint of PRB mathematical logics is related to 36 elements of three categories, as shown in figure 3, the inspection according to " check item setting " page
Item is looked into, such as occurrence point data check item, segmentation route data check item, geology limit data check item, is selected in each check item
One or more options the PRB mathematical logics are constrained.
Step 12:To geotraverse(PRB)It is modeled with measured section deep.It specifically includes:
Step 121:Original route is generated automatically according to PRB data(Conveniently)Section, and shown in three-dimensional scenic.As Fig. 4,
Shown in Fig. 5.
Step 122:According to research precision, route section is improved in depth direction.As shown in Figure 6, Figure 7.
Step 123:According to comprehensive analysis or deep data, the modeling of geotraverse depth profiled direction is carried out, and dynamic is raw
Into the three-dimensional geological figure for having certain depth.As shown in Figure 8, Figure 9.
Step 13:According to the step of PRB data acquisition geological boundary occurrence, i.e. the occurrence point domain of influence of geology semantic constraint
Method is estimated with geological boundary occurrence.
In geologic survey geological plane maps, geological boundary and limited occurrence point are the masters for establishing three-dimensional geological body Model
Want information source and modeling foundation.Therefore, can be according to limited occurrence point, and consider a variety of space geometries and geology language
The constraint of justice, occurrence that is correct, reasonably estimating out geological boundary, is directly related to the correct of established three-dimensional geological body Model
Property and reasonability.
Existing occurrence estimates algorithm or directly carries out sample using the buffering area of the occurrence of closest point or setting certain distance
This search or the segmentation trend using distance weighted progress occurrence interpolation, less consideration geological boundary, it is more not yet in effect to be included in ground
Matter semantic constraint.Therefore, how to consider geological boundary trend, the implicit geology semanteme for excavating occurrence point, determined
The reasonable domain of influence of limited production shape point, the fine occurrence for estimating out geological boundary are key technology places.
We carry out sample searches or using distance using the occurrence of closest point or the buffering area of setting certain distance
Weighting carries out occurrence interpolation, while considers the segmentation trend of geological boundary, is effectively included in geology semantic constraint.
Step 131:The step of solving the inflection point of every geological boundary, the geological boundary segmentation include blockade line and do not seal
Abutment line.
A, geological boundary is segmented.For a geological boundary, corresponding rule can be used and be segmented.
B, closed area.As shown in Figure 10, the selection of occurrence point and the assignment side that way of search is divided based on quadrant can be used
Method.
As shown in figure 11.Using the occurrence point selection based on buffer zone analysis mode in assignment method, using geology
The rule of occurrence in the direct line taking of boundary line endpoint occurrence from the nearest occurrence point of endpoint.
Step 132:By the Logic relationship analysis of geologic body, the influence that tomography, rock mass separate is considered, to containing occurrence
Naturally continuous stratigraphic boundary carries out occurrence parameter transmission.As shown in figure 12.
Red occurrence carries out occurrence parameter transmission by spatial analysis to the naturally continuous stratigraphic boundary containing occurrence in figure
Occurrence parameter transmission is carried out to the naturally continuous stratigraphic boundary containing occurrence, occurrence parameter is transmitted without crossover fault.
Step 133:To the geological boundary of occurrence parameter has not been obtained, given using interactive mode by geology expert.
For extremely complicated region or by the traversal of 3~5 times, find there is not the geological boundary of occurrence parameter also, adopt
It is given with interactive mode by geology expert.
Step 14:The step of generating three-dimensional geologic structure/tomography screen work figure.
The step of individually being modeled to the tomography in charting region.Emphasis is examined the fault line of segmentation as an entirety
Consider.
A. it is handled using tomography frame D modeling tool.As shown in figure 13.
According to structure outline map, geology frame model is first established, which is used as charting area three-dimensional geological knot on the whole
The frame of structure, then the geological condition fine degree that foundation data source is reflected is from coarse to fine, builds varigrained three-dimensional successively
Geologic structure model, and finally realize constraint adult of the different grain size geologic body in corresponding geology frame.
Boundary line and its occurrence information of record are contacted according to real material figure interrupting layer, by the way of tri patch, from
Dynamic structure tomography frame model.During practical two dimensional drafting, a layer data, which is often divided into several sections, is expressed,
Each section is respectively provided with different occurrence information.Therefore, when building fault plane threedimensional model, the screening of first layer data is needed
With connection processing, the FAULT MODEL of different sections, using " angle smoothing gradual change " method, carries out fault plane during structure
It seamlessly transits.
B. the step of handling is intersected to tomography.
As shown in figure 14.Geological fault is divided into two kinds of buried fault and exposure tomography, each tomography combines given
Tendency, inclination angle and fracture depth information build fault plane.For buried fault, first to build the 4th is thereon coating,
Then it is that the initial position of bottom surface as tomography of coating extends downwardly using the 4th, builds tomography surface model.
In view of fault plane and the topological relation of geologic body and the processing in public face, each tomography is using segmentation structure
Mode is built, and a usual fault line is made of several sections of specific different occurrences information, and tomography tendency variation may be by blocking up
Slow down, it is also possible to which by gradual stifled, generally use angle gradient technology realizes the smoothing processing of fault plane threedimensional model.Meanwhile
For a plurality of tomography in the case of of intersecting, to consider the major-minor relationship of tomography, first build dominant fault, then build auxiliary tomography, auxiliary tomography
It to be built along dominant fault.
The major-minor fault plane of structure should keep being seamlessly connected under three dimensions.
Therefore, before auxiliary tomography is built, first auxiliary tomography is extended, the friendship between auxiliary tomography and dominant fault is obtained
Line, then build the fault plane of auxiliary tomography.
Step 15:Generate three-dimensional geological route(PRB)The step of section fence diagrams.
By above-mentioned steps 14 as a result, being shown in three-dimensional scenic, as shown in figure 15.It amplifies display effect, such as Figure 16 institutes
Show.
Step 16:Geotraverse(PRB)Section combines the step of modeling with geologic map.
Wherein, geologic body composition includes:
The basic ideas of the geology face construction method of traditional less parallel section are:Two are selected on two adjacent sections
Group can correspond to the segmental arc of splicing, and geology face is established by the way of contour tiling, and main process is adjacent from two
Two groups of corresponding hatchings are found on geologic section and carry out splicing structure geology face.
Platform, which provides, during being spliced merges addition line, addition pinching point, extraction subarc section, addition control
A series of interactive modeling tools such as line, generation lenticular body, intersection cutting, for interactive modeling under three-dimensional environment.
After all being generated when geology face, it is possible to form geological mass.An empty geologic body is created first, selects phase
The stratum number answered, is then added to corresponding geology face in the block with cross-sectional area, just forms the geology of a closing
Body.
We use improved modeling method.The difference that its geologic body is formed has:
(1)It is expanded to from less parallel section with level(Geologic map)Geological boundary is frame, using route section as constraint,
Automatically according to the body that horizontal geological boundary face is formed, according to the geological boundary experiment material geologic body depth side in depth profiled direction
To form and relationship, automatically form body.Geology is determined according to the geological boundary form and relationship in depth profiled direction simultaneously
The logical relation of body, volcanic crater ring center position as shown in figure 17 cut through peripheral geologic body.
Key technology further includes:Using the geological boundary block integral side under more intersecting routes sections and occurrence constraint
Method, thus it is speculated that go out the continuously and three-dimensionally matter boundary line of the following layering of earth's surface.It is also the technological core of the present invention.
Establish the refined model of three-dimensional geologic using block integral method, key be according to surface geology boundary line,
The route section and earth's surface of comprehensive study have under the constraint of occurrence point, and the precision and step pitch of block integral are determined according to engineer's scale,
It is successively inferred to continuous underlying geological boundary line down.Route section more subtly can reflect geological personnel rule of thumb
The subsurface formations situation of deduction.N intersecting routes section generally can determine that constraint is inferred in 2n lower section stratified formations boundary line
Point according to these obligatory points, using curve fitting technique, can calculate layering geological boundary, pass through triangular facet between each layer
Construction method forms geological interface.It should be noted that the form of geological boundary is not only constrained by section, while by occurrence point about
Beam, the plane how occurrence point information is attached to polygon are estimated in fitting, finally deducing the company being layered below earth's surface
Continuous three-dimensional geological boundary line.
(2)4th is coating, the processing procedure of vein.
4th is that coating will be independent stratum, is built with other stratigraphic divisions.Wherein, the 4th is dividing for coating
Cloth range is obtained from geologic map, and thickness is obtained from comprehensive caliper log figure.Although the covering of the 4th system of different location
Thickness is different, but because data are limited, the stratum that the structures of all Quaternary Stratas will be obtained from comprehensive caliper log figure
Thickness is as average thickness(It can be recorded the thickness as an attribute field of stratigraphic region in geologic map), then to two
Infer side.For Quaternary Strata, using polygon focus point/center of mass point as the maximum gauge of Quaternary Strata, then to two
Side deduction, gradual pinching;Its bottom surface will be consistent with surface relief substantially, a few point can be fixed, directly from landform
Inferred, other positions point is obtained by interpolation, and interpolation method may be selected apart from inverse ratio, than batten etc..
In a manner that geologic map and geological map of bed rocks constrain jointly, Quaternary Strata is removed, and there can be foundation
Judgement the 4th be infratectal basement rock distribution situation.
By Quaternary Strata the Seal treatment of section situation, as shown in figure 18.
The disposition that Quaternary Strata is removed, as shown in figure 19.
Step 17:The step of ultimately producing three-dimensional geological figure.
On the basis of step 16,3D geologic maps are formed, as shown in figure 20.Meanwhile also provide the explosion analysis of model, mould
The dragging analysis tool of type and region-wide geology body three-dimensional models topological coherence detection instrument.
In techniqueflow research, a kind of hand using model topology consistency detection technology as analysis modeling precision is needed
Section and tool, and incorporate in three-dimensional modeling flow.Topological coherence is examine three-dimensional geological modeling quality and correctness one
No matter major criterion which kind of threedimensional model and the three-dimensional geological body Model of corresponding modeling method foundation taken, does not allow to exist
Adjacent geologic body has overlapping or separation situation.Be limited by limited modeling data source and model area in initial data it is close
Degree and the heterogencity of quality(Geologic body as occurrence point is uneven, route section influences is limited)Even if same survey area
The model of geological structure body that different modeling methods is used to establish different piece is inside also needed, modeling fine degree may cause to be adjacent to
The topological nonuniformity in the public face of plastid.Therefore, topology detection is carried out to geologic body threedimensional model with correcting, avoids single geology
Body self intersection, and ensure the topological coherence in the adjacent public face of geologic body.
The geotraverse of the present invention(PRB)The method that Data fuse generates three-dimensional geological figure, can also use comparative maturity
Profile Modeling method, the Geologic modeling based on section can be divided into four basic processes:
First, the pre-treatment step of model data (cross-sectional data being linked to be between borehole data or drilling).
Here, the pre-treatment step be necessary condition, otherwise can not generate, geologic mapping is no drilling, this be with
The difference of former three-dimensional modeling method maximum.
Second, the step of definition of section, explanation are with delineation and generation.
The step of third generates fence diagrams by section, and interaction produces volume elements and then generates geological model.
4th, the visualization of geological model and three dimensions inquiry and analytic process.
The geotraverse of the present invention(PRB)The main feature following points of dual three-dimensional geological charting modeling:
1)Three-dimensional modeling is consistent with operation flow, and conceptual modelling type and the visualization of geological personnel are that dynamic one links
, it is not independent from each other.
2)In the modeling of 3D geologic maps, for PRB Data fuses during being formed visually, there is no a large amount of inefficient and multiple
Miscellaneous operation, software is according to geotraverse(PRB)Section, geology constraint diagram and body Model rule, almost generation is three-dimensional in real time
Model is suitble to geological personnel to complete modeling overall process self.
3)D modeling tool is a part for digital seismic data software.As long as the used digital mapping of geological personnel meeting is soft
Part, slightly training can be operated.If the ore-body modeling tool to the software is familiar with, it is various that the integration of ground underground can be achieved
Fine modeling it is integrated.
The three-dimensional geological charting geotraverse of the present invention(PRB)The main distinction of Data fuse and existing two-dimentional charting just like
Descend some:
1)3D geologic mappings modeling starts from geotraverse and measured geological section.Due to the mutual constraint of geological modeling,
It is required that geology person adopts adopts quasi- field observation data entirely.
2)Each geologic body(B)Boundary occurrence will be observed, collects and accurately be obtained as possible, to ensure that geologic body is correct
Correlation.
3)After computer automatically generates each geotraverse section, geology person need to be according to the evolution of geologic body in area
Feature or deep data in the depth direction, improve trend, form and its correlation that geologic body extends downwardly.It extends
Depth depend on and data and geological personnel comprehensive analysis.
4)To the geologic survey achievement coherence request higher of the map of field free-hand work, field total figure and real material figure, modeled
Journey will intuitively expose unreasonable geologic body relationship.
5)According to the constraint of geology picture frame frame and relationship, the content of route depth profiled can be improved and refined.
6)In the modeling of three-dimensional basement rock, for the region of the 4th system covering, geological personnel can be by comprehensive analysis, using stripping
From method, the basement rock relationship under the area of coverage is provided, makes 3D geologic maps more complete.
Preferably, the method for the present invention, which further includes, utilizes geophysics, geochemistry, the integration of borehole data and comprehensive analysis
The step of, specially:
By shallow surface data, using information such as geologic map, sections, three-dimensional geological structural model can be quickly built,
All mapping units in charting region can be shown in a manner of 3D solid.It being capable of rapid build workspace initial three
Tie up geological model.However, to build more fine 3 d structure model, it is such as sub-divided into lithology rank, it is necessary to Usage profile number
According to participating in modeling, including geologic section, section of GEOPHYSICAL EXPLANATION for being connected according to borehole data etc..In geotraverse section
On the basis of modeling achievement with geological plane maps, can by geologic section, the composition palisade section such as section of GEOPHYSICAL EXPLANATION, then
Palisade section is divided into a series of separate unit;For each separate unit, using fine interactive modeling tool, obtain
Fine three dimensional structure model, then the subtle three-dimensional model of all units is merged, it obtains entirely modeling fine the three of region
Dimension module.
Wherein, it for deep data, can be obtained by means such as drilling, geophysicses, by the comprehensive of deep data
Close analysis(The process, using other correlative study means, incorporates its professional knowledge by geological personnel), with reference to based on drilling and cut open
Face information establishes model method(It is modeled using the geologic age between different sections or lithological information), formation it is explanatory into
Fruit(Such as section), using digital mapping system space modeling tool, be converted to spatially can visualization information(Such as three-dimensional
Section), while the attribute model of other classes in deep can be combined(For analyzing and determining).Finally utilize contour line structure face, body
The tools such as member structure fully integrate these drillings and cross-sectional data, the explanatory achievement information of Geophysical-chemical, according to restrained boundary, into
One-step optimization forms geology, geophysics, the three-dimensional geological refined model for drilling multi-specialized data constraint.This integration process is
The process of Data Integration and comprehensive analysis.
The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.
Claims (4)
1. a kind of method of geotraverse PRB Data fuses generation three-dimensional geological figure, including according to PRB field data collections and reality
Survey section carry out PRB planar hull modellings the step of and according to the PRB planar hull modellings with obtaining geology real material figure or compliation manuscipt
The step of matter figure, which is characterized in that this method further includes:
A, the step of logical constraint being carried out to PRB sections;
B, the step of deep modeling being carried out to PRB and measured section;
C, according to the step of PRB data acquisition geological boundary occurrence;
D, the step of generating three-dimensional geologic structure/tomography screen work figure;
E, the step of generating three-dimensional PRB section fence diagrams;
F, PRB sections combine the step of modeling with geologic map;
G, the step of generating three-dimensional geological figure;
Further comprise:
H, using geophysics, geochemistry, the integration of borehole data and comprehensive analysis it the step of, specifically includes:
According to lithology rank, Usage profile data participate in modeling, including connected according to borehole data geologic section, geophysics
The section of explanation;On the basis of geotraverse section and geological plane maps modeling achievement, by geologic section, GEOPHYSICAL EXPLANATION
Section composition palisade section, then palisade section is divided into a series of separate unit;For each separate unit, use
Fine interactive modeling tool, obtains fine three dimensional structure model, then the subtle three-dimensional model of all units is merged, obtains
The subtle three-dimensional model in entire modeling region;
Logical constraint is carried out to PRB sections described in step A, including:
After the acquisition of PRB data, cross-sectional data acquisition and geological plane maps tentatively generate, system is according to geological map, geology
Route sectional view, geology measured section figure, to geotraverse section carry out logical constraint calculating, be correct geologic body relationship into
Row logic modeling;
Deep modeling is carried out to PRB and measured section described in step B, including:
B1, original route section is generated, and show in three-dimensional scenic according to PRB data;
B2, according to research precision, improve route section in depth direction;
B3, according to comprehensive analysis or deep data, carry out the modeling of geotraverse depth profiled direction, and dynamic generation has a depthkeeping
The three-dimensional geological figure of degree;
Described in step C according to the step of PRB data acquisition geological boundary occurrence, including:
Sample searches are carried out using the occurrence of closest point or the buffering area of setting certain distance or use distance weighted progress
Occurrence interpolation, while consider the segmentation trend of geological boundary, effectively it is included in geology semantic constraint;
The step of three-dimensional geologic structure/tomography screen work figure is generated described in step D, is individually built including the tomography to charting region
Mould using the fault line of segmentation as an entirety, further comprises:
D1, the step of being handled using tomography frame D modeling tool;And
D2, the step of handling is intersected to tomography;
PRB sections described in step F combine the step of modeling with geologic map, including:
F1, it is expanded to from less parallel section using horizontal geologic map geological boundary as frame, using route section as constraint, automatic root
According to the body that horizontal geological boundary face is formed, according to the shape of the geological boundary experiment material geologic body depth direction in depth profiled direction
State and relationship, automatically form body;Simultaneously according to the geological boundary form and relationship in depth profiled direction, the logic of geologic body is determined
Relationship;
F2, the 4th are coating, the processing procedure of vein.
2. the method for PRB Data fuses generation three-dimensional geological figure according to claim 1, which is characterized in that step F1 is into one
Step includes, using more intersecting routes sections and the continuous block integral method of geological boundary under occurrence constraint, being inferred to below earth's surface
The continuously and three-dimensionally matter boundary line being respectively layered.
3. the method for PRB Data fuses generation three-dimensional geological figure according to claim 1, which is characterized in that raw described in step G
The step of into three-dimensional geological figure, including:
It is incorporated in three-dimensional modeling flow using the region-wide seamless modeling technique of geology body three-dimensional models and topological coherence detection, it is raw
Into three-dimensional geological figure.
A kind of 4. method of geotraverse PRB Data fuses generation three-dimensional geological figure, which is characterized in that using Profile Modeling skill
Art, including:
A, model data pre-treatment step, model data include the cross-sectional data being linked to be between borehole data or drilling;It is described pre-
Processing step is necessary condition, otherwise can not be generated, and geologic mapping is no drilling;
B, the step of definition, explanation and delineation and generation of section;Further comprise:PRB sections combine modeling with geologic map
Step, including:It is expanded to from less parallel section using horizontal geologic map geological boundary as frame, using route section as constraint, from
The dynamic body formed according to horizontal geological boundary face, according to the geological boundary experiment material geologic body depth direction in depth profiled direction
Form and relationship, automatically form body;Simultaneously according to the geological boundary form and relationship in depth profiled direction, geologic body is determined
Logical relation;4th is coating, the processing procedure of vein;
C, the step of fence diagrams, interaction production volume elements and then generation geological model being generated by section;
D, the visualization of geological model and three dimensions inquiry and analytic process.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410522738.4A CN105469443B (en) | 2014-09-30 | 2014-09-30 | Based on geotraverse(PRB)The method that process Data fuse generates three-dimensional geological figure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410522738.4A CN105469443B (en) | 2014-09-30 | 2014-09-30 | Based on geotraverse(PRB)The method that process Data fuse generates three-dimensional geological figure |
Publications (2)
Publication Number | Publication Date |
---|---|
CN105469443A CN105469443A (en) | 2016-04-06 |
CN105469443B true CN105469443B (en) | 2018-06-26 |
Family
ID=55607101
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201410522738.4A Active CN105469443B (en) | 2014-09-30 | 2014-09-30 | Based on geotraverse(PRB)The method that process Data fuse generates three-dimensional geological figure |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN105469443B (en) |
Families Citing this family (18)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108335355A (en) * | 2018-02-28 | 2018-07-27 | 武汉智博创享科技股份有限公司 | A kind of model of geological structure body construction method and device |
CN109977378B (en) * | 2018-03-09 | 2023-04-07 | 中国地质调查局发展研究中心 | Data acquisition method and system supporting whole field in digital geological survey |
CN109658512B (en) * | 2018-12-20 | 2021-03-30 | 国家海洋局第二海洋研究所 | Shallow stratum profile three-dimensional multi-body modeling method |
CN110084886B (en) * | 2019-04-18 | 2022-05-06 | 中南大学 | Geological space restoration method considering geological body morphology-occurrence-toughness constraints |
CN110163965B (en) * | 2019-05-07 | 2023-01-06 | 南京泛在地理信息产业研究院有限公司 | Solid three-dimensional model construction method for monoclinic rock stratum structure landform |
CN111983714B (en) * | 2019-05-24 | 2023-04-25 | 中国石油天然气股份有限公司 | Method and system for measuring field stratum based on sedimentary structure profile |
CN110675498B (en) * | 2019-09-30 | 2023-02-21 | 石家庄铁道大学 | Long and large strip-shaped three-dimensional geological environment modeling method and device and terminal equipment |
CN111325844B (en) * | 2020-03-18 | 2023-05-09 | 南京师范大学 | Automatic construction method of bedrock fault plane three-dimensional model |
CN111415415B (en) * | 2020-03-31 | 2023-05-09 | 南京师范大学 | Automatic construction method of three-dimensional map cutting geological section |
CN111681314B (en) * | 2020-05-29 | 2021-04-06 | 中国地质大学(武汉) | Virtual contour constraint-based fourth-system covering layer three-dimensional modeling method |
CN111986321B (en) * | 2020-07-03 | 2023-12-29 | 中煤航测遥感集团有限公司 | Three-dimensional geological modeling method, device, equipment and storage medium |
CN111899338B (en) * | 2020-08-05 | 2021-06-04 | 芯元(浙江)科技有限公司 | Method, device and system for three-dimensional modeling of stratum lithology of coverage area |
CN111986325B (en) * | 2020-08-25 | 2023-07-18 | 东北大学 | Implicit sectioning method for three-dimensional geologic body model |
CN112164123A (en) * | 2020-09-27 | 2021-01-01 | 中国地质调查局发展研究中心 | Geological route PRB data lithologic classification label processing method according to map filling unit |
CN112199886B (en) * | 2020-09-27 | 2024-04-16 | 中国地质调查局自然资源综合调查指挥中心 | Processing method of PRB data deep learning geological map prediction model |
CN113989446A (en) * | 2021-08-12 | 2022-01-28 | 贵州省地质调查院(贵州省地质矿产勘查开发局地质科学研究所) | Geological boundary field rechecking method for improving surface precision of geological three-dimensional model |
CN114332393B (en) * | 2021-12-29 | 2023-08-11 | 江西理工大学 | Three-dimensional geological modeling method for horizontal investigation system based on hierarchical constraint |
CN114898057B (en) * | 2022-05-18 | 2024-04-23 | 青海省地质测绘地理信息院 | Geological profile three-dimensional space information extraction method and device and storage medium |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101038680A (en) * | 2007-04-29 | 2007-09-19 | 中国地质大学(北京) | Method for finding mine with cubic forecast model based on three-dimensional modeling |
CN101906965A (en) * | 2010-07-14 | 2010-12-08 | 中国矿业大学(北京) | Technology for identifying and analyzing stratums in VR (Virtual Reality) geological environment |
CN103279986A (en) * | 2013-06-17 | 2013-09-04 | 陈超东 | Three-dimensional horizontal geological section map manufacturing method and applications thereof |
CN103632397A (en) * | 2013-12-12 | 2014-03-12 | 薛林福 | Multi-block multi-unit three-dimensional geological survey method |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8861309B2 (en) * | 2011-01-31 | 2014-10-14 | Chevron U.S.A. Inc. | Exploitation of self-consistency and differences between volume images and interpreted spatial/volumetric context |
-
2014
- 2014-09-30 CN CN201410522738.4A patent/CN105469443B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101038680A (en) * | 2007-04-29 | 2007-09-19 | 中国地质大学(北京) | Method for finding mine with cubic forecast model based on three-dimensional modeling |
CN101906965A (en) * | 2010-07-14 | 2010-12-08 | 中国矿业大学(北京) | Technology for identifying and analyzing stratums in VR (Virtual Reality) geological environment |
CN103279986A (en) * | 2013-06-17 | 2013-09-04 | 陈超东 | Three-dimensional horizontal geological section map manufacturing method and applications thereof |
CN103632397A (en) * | 2013-12-12 | 2014-03-12 | 薛林福 | Multi-block multi-unit three-dimensional geological survey method |
Non-Patent Citations (2)
Title |
---|
三维地质图建模与编制一体化技术方法;李超岭 等;《中国地质学会2013年学术年会论文摘要汇编——S07第六届全国地质制图与地理信息学术交流会分会场》;20131017;第2.1节第1-4行,第2.2节第1-2行,第2.3节第1、2、4、5行及图1 * |
基于三维地质建模及可视化的大比例尺深部找矿预测研究及应用:以内蒙古柳坝沟矿区为例;向中林 等;《地学前缘》;20140915;第21卷(第5期);第7页第1栏第5-21行 * |
Also Published As
Publication number | Publication date |
---|---|
CN105469443A (en) | 2016-04-06 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105469443B (en) | Based on geotraverse(PRB)The method that process Data fuse generates three-dimensional geological figure | |
CN104375179B (en) | Method for looking for oil and gas reservoir based on TRAP-3D software | |
CA2713019C (en) | Gridless geological modeling | |
EP3293552B1 (en) | System and method for editing geological models by switching between volume-based models and surface-based structural models augmented with stratigraphic fiber bundles | |
US10995592B2 (en) | Method and system for analyzing the uncertainty of subsurface model | |
CA2918415C (en) | Identifying and extracting fluid layers and fluid reservoirs in one or more bodies representing a geological structure | |
NO340044B1 (en) | Procedure for creating facies probability cubes based on geological interpretation | |
CN103279986A (en) | Three-dimensional horizontal geological section map manufacturing method and applications thereof | |
CN112446956B (en) | Geological three-dimensional model construction method based on drilling data | |
NO328482B1 (en) | Method, product and system for automated, non-artificial, three-dimensional fault surface-based horizon modeling of the subsurface | |
GB2474740A (en) | Gridless geological modeling of a structural framework | |
CN106023313A (en) | 3D geologic digital reconnaissance report generating method | |
CN107944086A (en) | A kind of fast modeling method based on borehole data | |
CN107180452A (en) | The stratified geological objects modeling method of the multi-source data coupling on the stratum containing standard | |
Wu et al. | On three-dimensional geological modeling and visualization | |
Wu et al. | A 3D modeling approach to complex faults with multi-source data | |
CN116071515B (en) | Method and application system for creating digital three-dimensional geological model layer by layer | |
CN105184862B (en) | A kind of three dimension strata model dynamic fixing method | |
Zehner | Constructing geometric models of the subsurface for finite element simulation | |
CN111859687B (en) | Mixed geological modeling method and system for depicting geological structure of uranium-bearing sand layer | |
CN103632396B (en) | A kind of method to the modeling of complex geological structure sequence | |
CN106887041A (en) | The geology three-dimensional modeling method and system of simulation geological phenomenon space development trend | |
CN111815769B (en) | Modeling method, computing device and storage medium for thrust covered zone construction | |
CN106227959A (en) | Method and device for predicting lithologic reservoir favorable area based on four-graph superposition method | |
Martin et al. | Three-dimensional modeling of Pennsylvanian sandstone units in the mature Dudley oil field, Illinois, USA |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20230614 Address after: 100055 No.55, Honglian South Road, Xicheng District, Beijing Patentee after: Command center of natural resources comprehensive survey of China Geological Survey Address before: 100037 Beijing City, Xicheng District Fuwai Street No. 45 Patentee before: DEVELOPMENT & RESEARCH CENTER OF CHINA GEOLOGICAL SURVEY BUREAU |