Tri-dimensional geologic body dynamic reconfiguration method based on sequence profile topology inference
A technology of dynamic reconstruction and 3D geology, applied in the field of geoscience information processing, can solve the problems such as the inability to perform dynamic reconstruction and local update of the model, the lingering of the 3D geological body modeling method, and the inability to realize automatic comparison, and achieve a small amount of data. , reduce workload and improve the effect of automation
Inactive Publication Date: 2010-04-07
CHINA UNIV OF GEOSCIENCES (WUHAN)
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At present, the 3D solid modeling method in geographic space is becoming more and more mature, but the expression and reconstruction of 3D topology are still in the exploratory stage, and the rapid update and reconstruction of complex models is still a problem to be solved; while in geological space, due to the above There are three differences, especially due to the qualitative and incompleteness of geological data in geological space, the 3D geological body modeling method still stays at the stage of static manual interactive modeling; because it requires too much manual reasoning and judgment based on geological knowledge
[0007] Geological body modeling based on profiles is one of the most basic methods, but because automatic comparison of effective profiles cannot be realized, dynamic reconstruction and local update of the model cannot be performed with this method
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[0031] 1) Input the set of non-coplanar sequence profiles (consisting of n continuous surfaces): SC={SCi}(1≤i≤n);
[0032] 2) Select the sections SCi and SCi+1, and calculate a projection plane SP, and project SCi and SCi+1 to SP to obtain SPi and SPi+1. Where SPi=MPi×SCi is projected to SP, SPi+1=MPi+1×SCi+1 is projected to SP, MPi=MPi+1;
[0033] 3) On the SP plane, use the two-dimensional topology automatic establishment algorithm to establish the similar two-dimensional topology relationship of SPi and SPi+1, and form areas; two area sets SAi and SAi+1 are obtained;
[0034] 4) Through the comparison of the regional objects in SAi and SAi+1, establish the regional corresponding relationship of the same geological unit in SAi and SAi+1, and transfer this corresponding relationship to SCi and SCi+1 through SPi and SPi+1 the geological boundaries of
[0035] 5) According to the topological relationship of conduction, a closed surface of geological body is established betwee...
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The invention is a three-dimensional geological body dynamic restructuring algorithm based on sequence section topology reasoning. Starting with nature-determining space knowledge expression and reasoning, the invention introduces nature-determining space reasoning into the three-dimensional geological modeling, and enhances the comparison dimension of the sections to realize the automatic comparison of sequential sections through the construction and reasoning of quasi-two-dimensional topology among non-shared sequence sections. The invention effectively solves the problems of automatic comparison non-shared sequence sections, partial model upgrading of three-dimensional geological body based on sections, and overall dynamic restructuring of models; greatly reduces the workload of manualinteractive model establishment, avoids the incapability of dynamic upgrading of models, and enhances the model-establishing efficiency of irregular three-dimensional geological body; adapts to data ofa variety of sections and finds wide applications in varied professional software.
Description
technical field [0001] The invention relates to the technical field of geoscience information processing, in particular to spatial reasoning, three-dimensional graphics and three-dimensional geological modeling methods. Background technique [0002] The invention relates to the cognition problem of "geographical space" and "geological space", the description problem of three-dimensional topological relationship, and the problem of automatic modeling and dynamic updating of complex geological bodies. Here, "geographical space" is defined as the space above the earth's surface, and "geological space" is defined as the space below the earth's surface. The main differences between the two are reflected in the following points: [0003] 1. Geological bodies in geological space are generally not visible because they are buried deep underground, and the spatial form data of geological bodies are generally obtained through indirect measurement; while physical objects in geographica...
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IPC IPC(8): G06T17/50G06T17/05
Inventor 何珍文吴冲龙田宜平刘刚张夏林翁正平毛小平刘军旗孔春芳汪新庆李伟忠李新川张志庭綦广
Owner CHINA UNIV OF GEOSCIENCES (WUHAN)
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