本文介绍一种合并三维地质模型网格数据体的新方法。
This paper presents a new scale-up technique for the grid data volume of a 3D geological model.
能根据用户需求对模拟出的三维地质模型图进行旋转和剖切显示。
The three-dimension geological model figure that is imitated can show under rotating and cutting according to user's needs.
对三维地质模型进行时间轴切片,就对某一时刻的地质意义做出解释。
The geologic significance at a time can be explained by time-scale slice up according to 3D geologic model.
处理了典型重磁异常二维及三维及三维地质模型,给出了各模型的处理结果及误差曲线;
The typical 2D and 3D gravitational magnetive anomalies models are processed, and the results and error curves from the typical models are given.
三维地质模型的栅状图可视化方法研究是正确认识地质结构和构造复杂性的一种重要手段。
Research for fence diagram of 3d geographical model is an important way to exactly cognize geographical construction and complexity.
建立三维地质模型的终极目的是更细致,正确地研究地下的油躲,为油躲开发提供可靠依据。
The ultimate goal of 3d geological model is to make the study of the underground reservoir more detailed and accurate, and provide a reliable basis for reservoir development.
由于三维地质模型是地质体的一种数字化表述,因此,它还在数字化油藏方面起到了重要作用。
Because the 3d geological model is a digital presentation of reservoirs, it also occupies an important position in digitizing a reservoir.
在前面的各项研究的基础上开展了储层三维地质模型研究,采用地质统计学克里金方法进行井间插值。
After the above research work, the research studied on the 3d geological model of the reservoir, and used the geostatistics kriging interpolation.
三维地质模型在计算机中的数据表达就是三维地质模型的数据模型,它具有确定性、可视性和可修改性的特点。
Data expression method of 3d geological model in computer is data model of 3d geological model. It has characters of certainty, visualization and modifiability.
在仪器和处理解释技术方面的进展使得大地电磁法现在能够快速采集大地电磁数据并进行二维或三维地质模型解释。
Developments in instrumentation and analysis techniques now permit MT data to be collected rapidly and interpreted in terms of two dimensional and three dimensional Earth models.
同时建立相应的地质信息数据库,将三维地质模型与数据库信息链接起来,实现工程地质信息的可视化管理与查询。
At the same time, setting up relevant database of geological information, to link 3d geological model to information in database for visual management and inquiry.
可视化技术是当今表达和分析复杂数据的有力工具,将可视化技术引入到DEM和三维地质模型,可以实现三维地形和地质体的生成与仿真。
Visualization is a powerful tool of expressing and analyzing complicate data. Its being used in DEM and 3d geo-model, 3d terrain and geologic model will be implemented.
应用三维可视化技术建立油藏精细地质模型,并将其应用于生产实践。
Using 3d visual technique, the precise reservoir geologic modeling is set up and applied in fields.
最后,应用等时相控随机模拟方法建立了三维可视化的储层地质模型。
Finally, isochronal facies-restrained stochastic modeling method is used to build up the 3-d reservoir model.
在重建三维非均质地质模型的基础上,深入研究了剩余油分布规律。
Based on rebuilding 3dimension heterogeneous geological model, the distribution rule of the remaining oil is studied deeply.
储层地质学家设计了储层的地质模型,描述储层的三维结构,认识其静态和动态特征,指导油气勘探和开发。
The reservoir geologists have designed geological models of reservoir to describe the 3-D structure of the reservoir and help hydrocarbon exploration and production.
基于所建立的地质模型,可实现与地下洞室群相关的多项地质信息的三维可视化分析。
With the developed geological model, 3d visualized analysis of some relevant geological information about underground cavern groups was realized.
基于所建立的地质模型,可实现与地下洞室群相关的多项地质信息的三维可视化分析。
With the developed geological model, 3d visualized analysis of some relevant geological information about underground cavern groups was realized.
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