Pre-stack depth migration is an important method used to explore complex area.
叠前深度偏移是人们解决复杂条件下勘探的重要方法。
By default, the maximum stack depth for the bookmark stack is set to15 entries.
默认情况下,书签堆栈最大深度被设置为15个入口。
By restricting the stack depth to three levels, you should avoid unexpected behaviour.
通过将栈深度限制为三层,您应该能避免意外行为。
The leading research foreland mainly focuses on pre-stack depth domain and elastic wave.
目前的研究前沿主要集中在叠前深度域和弹性波。
Pre-stack depth migration technique can be realized either in shotpoint receiver domain or in CMP offs et domain.
叠前深度偏移技术既可在炮点—接收点域实现,也可在共中心点—炮检距域实现。
The technique of seismic pre-stack depth migration is used to correctly implement the complex structural imaging.
采用地震造前深度偏移技术,使复杂构造正确成像。
Therefore, the wave equation pre-stack depth migration, a method starting directly from the rolling surface, is discussed.
为此,探讨了直接从起伏地表开始的波动方程叠前深度偏移方法。
This reduces memory usage during the iteration because the stack depth is constant instead of dependent on the height of the tree.
这减少了迭代过程中的内存占用,因为堆栈深度始终保持一致,而不依赖于树的高度。
For enhancing the migrated imaging, these techniques, like DMO, migration velocity field smoothing and pre-stack depth migration, are used.
采用DMO、偏移速度场平滑、叠前深度偏移等技术提高偏移成像精度。
We have realized the parallelization of 3-D post-stack depth migration software on SP2 with PVM, and gained ideal parallel efficiency and scalability.
使用PVM编程,将串行的三维叠后深度偏移软件,在SP2上实现了并行化,获得了理想的并行效率和可扩展性。
Migration velocity analysis is one of the key steps in pre stack depth migration whose accuracy directly affects the quality of pre stack depth migration.
偏移速度分析是叠前深度偏移的关键步骤之一,它的准确与否直接影响叠前深度偏移的质量。
Common focus point (CFP) migration based on the equal travel-time principle is a kind of pre-stack depth migration method through focusing in both emission and detection.
共聚焦点(CFP)偏移是基于等时原理,通过激发聚焦和检波聚焦的双聚焦实现叠前深度偏移的地震成像方法。
Pre stack depth migration which starts directly from undulating earth surface turns out to be a valid way to deal with irregular topography and complex geologic structures.
直接从起伏地表开始的叠前深度偏移方法是对付复杂地表和复杂地质构造成像的有效手段。
Although the wave field based pre-stack depth migration is the most reliable method for complex structure imaging, it has a high computation cost and a poor adaptation to geometry.
基于波场延拓的叠前深度偏移是实现复杂构造地质体成像的可靠方法,但存在着计算量大、对观测系统适应性差等缺点。
As the most physical of the shot-profile wave equation pre-stack depth migration involving huge extrapolation calculation, the calculation is extremely time-consuming and less efficient.
作为最具物理性的共炮点道集的波动方程叠前深度偏移,涉及庞大的波场外推计算量,计算极其耗时,效率较低。
Taking aim at solving the important velocity model problem in wave equation pre-stack depth migration, This paper studies the method and software of building 3d migration velocity model.
针对波动方程叠前深度偏移中重要的速度模型问题,研究了一套三维速度建模方法和软件。
All traces that have stack Dump enabled will output the stack to this depth.
所有那些启用堆栈转储的跟踪将会把堆栈导入到这个深度。
From the upper edge of the existing structure, with a depth of 25meters, the new apartments of 8 meter modules stack continuously upwards.
现有结构高25米,再向上便是每8米一单元堆叠起来的新公寓。
Is the simple wisdom of the stack, is thinking of the depth.
简单是智慧的叠加,是思想的深度。
Remarkable achievements were obtained in the research, development and application of three dimensional seismic exploration and its depth migration before stack technique as well as software system.
三维地震及其叠前深度偏移技术及软件系统的研究、开发和应用取得显著成效。
Based on plane wave decomposition, We propose a wave-equation depth migration method for pre-stack seismic data.
提出了一套基于平面波分解的波动方程叠前地震数据深度偏移方法。
A method to mark transitive predecessors and transitive successors by using depth first search is provided with a description of the algorithm based on stack.
给出了先序活动和后序活动的基本定义,讨论了运用深度优先搜索进行先序活动和后序活动标定的基本原理,提出了基于堆栈机制的标定算法。
A method to mark transitive predecessors and transitive successors by using depth first search is provided with a description of the algorithm based on stack.
给出了先序活动和后序活动的基本定义,讨论了运用深度优先搜索进行先序活动和后序活动标定的基本原理,提出了基于堆栈机制的标定算法。
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