auxiliary shotpoint

简明释义

附加炮点;

英英释义

例句

1.The geologist identified an auxiliary shotpoint to enhance the seismic survey.

地质学家确定了一个辅助测点以增强地震勘测。

2.The auxiliary shotpoint was crucial for calibrating the seismic instruments.

这个辅助测点对于校准地震仪器至关重要。

3.In the field, we marked the location of the auxiliary shotpoint on our maps.

在现场，我们在地图上标记了辅助测点的位置。

4.The team decided to add an auxiliary shotpoint for better resolution of the subsurface structure.

团队决定添加一个辅助测点以更好地解析地下结构。

5.Using an auxiliary shotpoint can improve data accuracy during the exploration phase.

使用辅助测点可以提高勘探阶段的数据准确性。

作文

In the field of geophysical exploration, particularly in seismic surveying, the term auxiliary shotpoint refers to additional locations where seismic energy is generated to enhance the quality and resolution of the data collected. These shotpoints are not the primary locations used for the initial data collection but serve as supplementary points that help fill in gaps in the seismic coverage. The importance of using auxiliary shotpoint cannot be overstated, as they play a crucial role in improving the accuracy of subsurface imaging.Seismic surveys are essential for various applications, including oil and gas exploration, mineral prospecting, and environmental studies. When conducting these surveys, geophysicists deploy a series of sensors called geophones to detect the seismic waves that travel through the Earth after being generated by a source, such as an explosion or a mechanical device. The data gathered from these sensors is then analyzed to create images of the Earth's subsurface structures.However, relying solely on primary shotpoints can lead to incomplete data due to several factors, such as uneven terrain, obstacles, or limited access to certain areas. This is where auxiliary shotpoint comes into play. By strategically placing these additional shotpoints, geophysicists can obtain more comprehensive data, which ultimately results in a better understanding of the geological formations beneath the surface.The placement of auxiliary shotpoint is often determined by various factors, including the geological characteristics of the area, the type of survey being conducted, and the specific objectives of the project. For instance, in complex geological settings where there are multiple layers of rock or varying soil types, having more shotpoints can significantly improve the quality of the seismic images produced. These images are crucial for making informed decisions regarding resource extraction, environmental assessments, and even construction projects.Moreover, the use of auxiliary shotpoint can also help in the calibration of the seismic data collected. By comparing the data obtained from primary and auxiliary shotpoints, geophysicists can identify any discrepancies or anomalies that may arise due to variations in the subsurface conditions. This process of calibration is vital for ensuring the reliability of the seismic data and for minimizing the risks associated with exploration activities.In conclusion, the concept of auxiliary shotpoint is integral to the success of seismic surveys and geophysical exploration. These additional shotpoints provide valuable data that enhance the overall quality and accuracy of subsurface imaging. As technology advances and the demand for precise geological information increases, the role of auxiliary shotpoint will continue to be significant in various fields, including energy production, mining, and environmental management. Understanding and effectively utilizing auxiliary shotpoint is essential for professionals in the geosciences, as it directly impacts the outcomes of their exploration efforts.

在地球物理勘探领域，特别是在地震勘测中，术语辅助射点指的是额外的位置，在这些位置上产生地震能量，以增强收集数据的质量和分辨率。这些射点不是用于初始数据收集的主要位置，而是作为补充点，帮助填补地震覆盖中的空白。使用辅助射点的重要性不容小觑，因为它们在提高地下成像的准确性方面发挥着至关重要的作用。地震勘测对于石油和天然气勘探、矿产勘探和环境研究等各种应用至关重要。在进行这些勘测时，地球物理学家部署一系列称为地震检波器的传感器，以检测地震波，这些波在通过地球传播后被生成，例如爆炸或机械装置。然后，对从这些传感器收集的数据进行分析，以创建地球表面下结构的图像。然而，仅依赖主要射点可能会由于多种因素导致数据不完整，例如地形不平坦、障碍物或某些区域的有限通行。这就是辅助射点发挥作用的地方。通过战略性地放置这些额外的射点，地球物理学家可以获得更全面的数据，从而最终对地下的地质构造有更好的理解。辅助射点的放置通常由多种因素决定，包括该地区的地质特征、所进行的勘测类型以及项目的具体目标。例如，在地质复杂的环境中，如果存在多层岩石或不同土壤类型，拥有更多的射点可以显著提高所生成的地震图像的质量。这些图像对于就资源开采、环境评估甚至建设项目做出明智决策至关重要。此外，使用辅助射点还可以帮助校准收集到的地震数据。通过比较从主要和辅助射点获得的数据，地球物理学家可以识别由于地下条件变化而可能出现的任何差异或异常。这个校准过程对于确保地震数据的可靠性以及最小化与勘探活动相关的风险至关重要。总之，辅助射点的概念对于地震勘测和地球物理勘探的成功至关重要。这些额外的射点提供了宝贵的数据，增强了地下成像的整体质量和准确性。随着技术的进步和对精确地质信息需求的增加，辅助射点的作用将在能源生产、采矿和环境管理等各个领域继续显著。理解和有效利用辅助射点对于地球科学专业人士来说至关重要，因为这直接影响到他们勘探工作的结果。