geodetic
简明释义
adj. 大地测量学的;最短线的
英英释义
Relating to the science of geodesy, which involves measuring and understanding the Earth's geometric shape, orientation in space, and gravity field. | 与大地测量学相关,该学科涉及测量和理解地球的几何形状、在空间中的方向以及重力场。 |
单词用法
大地测量;测地学测量 |
同义词
反义词
| 非大地测量的 | The non-geodetic measurements were sufficient for local projects. | 非大地测量的测量对于局部项目来说足够了。 | |
| 局部的 | Local surveying techniques may not account for global curvature. | 局部测量技术可能不考虑全球曲率。 |
例句
1.Geodetic theodolites generally have circles of about 140mm diameter.
大地经纬仪的度盘直径一般为140毫米。
2.On this basis, the practical formulas fitting it to the 1954 'and 1980' geodetic coordinates of China are given.
在此基础上,给出了适用于我国1954年大地坐标系和1980年大地坐标系的实用公式。
3.This paper introduces a method to solve geodetic problem in condition of that the space distance and azimuth have been observed.
本文介绍了在已知方位角和空间距离情况下的大地主题解算问题。
4.One, known as the geodetic effect, is the amount by which the mass of the Earth will.
一方面,大家都知道的测量效应,探测器接近受地球质量影响的局部时空。
5.A new method for high resolution remote sensing image rectification and geodetic location is proposed.
该文提出高分辨率遥感影像纠正和绝对(大地)定位的一种新方法。
6.This paper can provide a reference and basis for space geodetic techniques especially to the research of the laser ranging.
本文工作可为空间大地测量,特别是激光测距技术的研究提供一定的参考和依据。
7.Besides, an application framework model of geodetic surveying metadata based on RDF is built.
同时,建立了基于RDF的大地测量元数据应用框架模型。
8.But as was mentioned before, you should pick a different clustering criteria for geodetic data in any case.
但是,如前所述,在任何情况下,应该为大地数据选用一个不同的聚集标准。
9.The geodetic 大地测量的 data collected from satellites is crucial for understanding climate change.
从卫星收集的大地测量的数据对于理解气候变化至关重要。
10.In order to improve navigation systems, scientists are developing new geodetic 大地测量的 models.
为了改善导航系统,科学家们正在开发新的大地测量的模型。
11.The surveyor used advanced geodetic 大地测量的 techniques to map the area accurately.
测量员使用先进的大地测量的技术准确绘制该地区。
12.The project requires a detailed geodetic 大地测量的 survey of the entire region.
该项目需要对整个地区进行详细的大地测量的调查。
13.A geodetic 大地测量的 network was established to monitor tectonic plate movements.
建立了一个大地测量的网络以监测构造板块的运动。
作文
The field of geodesy is essential for understanding our planet's shape, orientation in space, and gravitational field. It involves precise measurements and calculations to define the Earth's geometric properties. One of the most significant applications of geodetic (大地测量的) principles is in mapping and navigation. Accurate maps are crucial for a variety of activities, from urban planning to environmental monitoring. Without geodetic (大地测量的) data, it would be challenging to establish reliable coordinates for locations on Earth.In recent years, advancements in technology have significantly enhanced geodetic (大地测量的) practices. The introduction of Global Positioning System (GPS) technology has revolutionized how we measure distances and positions on the Earth's surface. GPS relies on a network of satellites that transmit signals to receivers on the ground, allowing for precise location determination. This technology is not only used for navigation but also plays a vital role in various scientific research fields, including geology, meteorology, and oceanography.Moreover, geodetic (大地测量的) studies are crucial in monitoring natural disasters. For instance, scientists use geodetic (大地测量的) techniques to study tectonic plate movements, which can help predict earthquakes. By analyzing changes in the Earth's surface over time, researchers can identify patterns that may indicate an impending seismic event. This information is invaluable for disaster preparedness and risk management.Another important aspect of geodetic (大地测量的) science is its application in climate change research. As sea levels rise and ice sheets melt, geodetic (大地测量的) measurements provide critical data on these changes. Satellites equipped with geodetic (大地测量的) instruments can track shifts in land elevation and monitor the movement of glaciers. This data is essential for understanding the impacts of climate change on our planet and developing strategies to mitigate its effects.In conclusion, the significance of geodetic (大地测量的) science cannot be overstated. From improving navigation systems to enhancing our understanding of natural disasters and climate change, geodetic (大地测量的) measurements are vital for a wide range of applications. As technology continues to evolve, the importance of accurate geodetic (大地测量的) data will only increase, enabling us to address some of the most pressing challenges facing our world today. Understanding and applying geodetic (大地测量的) principles will be crucial for future generations as they navigate an ever-changing environment.
大地测量学领域对于理解我们星球的形状、在空间中的方向以及重力场至关重要。它涉及精确的测量和计算,以定义地球的几何属性。geodetic(大地测量的)原理的一个重要应用是在制图和导航方面。准确的地图对于各种活动至关重要,从城市规划到环境监测。如果没有geodetic(大地测量的)数据,建立地球上位置的可靠坐标将是非常困难的。近年来,技术的进步显著增强了geodetic(大地测量的)实践。全球定位系统(GPS)技术的引入彻底改变了我们测量地球表面距离和位置的方式。GPS依赖于一组卫星向地面接收器发送信号,从而实现精确的位置确定。这项技术不仅用于导航,还在地质学、气象学和海洋学等多个科学研究领域发挥着至关重要的作用。此外,geodetic(大地测量的)研究在自然灾害监测中也至关重要。例如,科学家使用geodetic(大地测量的)技术研究构造板块的运动,这有助于预测地震。通过分析地球表面随时间变化的情况,研究人员可以识别可能表明即将发生的地震事件的模式。这些信息对灾害准备和风险管理至关重要。geodetic(大地测量的)科学的另一个重要方面是其在气候变化研究中的应用。随着海平面上升和冰盖融化,geodetic(大地测量的)测量提供了关于这些变化的关键数据。配备geodetic(大地测量的)仪器的卫星可以跟踪土地高度的变化并监测冰川的移动。这些数据对于理解气候变化对我们星球的影响以及制定减缓其影响的策略至关重要。总之,geodetic(大地测量的)科学的重要性不容小觑。从改善导航系统到增强我们对自然灾害和气候变化的理解,geodetic(大地测量的)测量对于广泛的应用至关重要。随着技术的不断发展,准确的geodetic(大地测量的)数据的重要性只会增加,使我们能够应对当今世界面临的一些最紧迫的挑战。理解和应用geodetic(大地测量的)原理对未来几代人来说至关重要,因为他们在不断变化的环境中航行。
