elevation resolution

简明释义

仰角分辨力

英英释义

例句

1.For our project, we need data with high elevation resolution to accurately model the landscape.

对于我们的项目，我们需要高高程分辨率的数据来准确建模地形。

2.Satellite imagery with enhanced elevation resolution can significantly improve flood risk assessments.

增强的卫星图像高程分辨率可以显著改善洪水风险评估。

3.The elevation resolution of this LiDAR dataset allows us to identify small features on the ground.

这个LiDAR数据集的高程分辨率使我们能够识别地面上的小特征。

4.Engineers rely on elevation resolution when designing infrastructures like bridges and tunnels.

工程师在设计桥梁和隧道等基础设施时依赖于高程分辨率。

5.The new mapping software offers improved elevation resolution for better terrain analysis.

新映射软件提供了更好的高程分辨率，以便更好地进行地形分析。

作文

In the field of geography and remote sensing, the term elevation resolution refers to the level of detail at which the height or altitude of a surface can be measured or represented. It is a crucial factor in the analysis of topographical data, as it determines how accurately we can depict the variations in terrain. A higher elevation resolution means that smaller changes in elevation can be detected, leading to more precise models of the Earth's surface. This is particularly important for applications such as urban planning, environmental monitoring, and disaster management, where understanding the nuances of the landscape can significantly impact decision-making.When we consider the implications of elevation resolution, it becomes evident that technological advancements play a pivotal role. With the advent of satellite imagery and LiDAR (Light Detection and Ranging) technology, we are now able to achieve unprecedented levels of detail in elevation data. For instance, LiDAR can provide elevation resolutions on the order of centimeters, allowing researchers to create highly accurate three-dimensional models of landscapes. This capability has revolutionized fields such as forestry, where understanding tree heights and canopy structures is essential for ecological studies and resource management.Moreover, the significance of elevation resolution extends beyond just scientific research; it also has practical applications in everyday life. For example, in the realm of civil engineering, accurate elevation data is vital for the design and construction of infrastructure such as roads, bridges, and buildings. Engineers rely on detailed topographical maps to assess drainage patterns, soil stability, and potential hazards related to elevation changes. Inadequate elevation resolution can lead to costly mistakes and safety risks, highlighting the importance of investing in high-quality elevation data.Furthermore, the relationship between elevation resolution and climate change cannot be overlooked. As global temperatures rise and ice caps melt, understanding how these changes affect sea levels and land elevations becomes increasingly critical. High-resolution elevation data allows scientists to model potential impacts on coastal communities and ecosystems, informing policy decisions and conservation efforts. By utilizing advanced technologies to improve elevation resolution, we can better prepare for the challenges posed by a changing climate.In conclusion, elevation resolution is a fundamental concept in the study of geography and environmental science. Its importance spans various sectors, from urban planning and civil engineering to climate research and ecological monitoring. As technology continues to evolve, we can expect further enhancements in our ability to capture and analyze elevation data, ultimately leading to more informed decisions that benefit society as a whole. Emphasizing the need for high elevation resolution will ensure that we are equipped to tackle the complexities of our dynamic world, paving the way for sustainable development and effective resource management.

在地理和遥感领域，术语elevation resolution指的是测量或表示表面高度或海拔的细节水平。这是分析地形数据的重要因素，因为它决定了我们能多准确地描绘地形的变化。更高的elevation resolution意味着可以检测到较小的海拔变化，从而导致对地球表面更精确的模型。这对于城市规划、环境监测和灾害管理等应用尤为重要，因为理解地形的细微差别会对决策产生重大影响。当我们考虑elevation resolution的影响时，很明显，技术进步发挥着关键作用。随着卫星图像和激光雷达（LiDAR）技术的出现，我们现在能够以空前的细节水平获取海拔数据。例如，LiDAR可以提供厘米级的海拔分辨率，使研究人员能够创建高度准确的三维地形模型。这一能力革新了林业等领域，在这些领域中，了解树木高度和树冠结构对生态研究和资源管理至关重要。此外，elevation resolution的重要性不仅限于科学研究；它在日常生活中也具有实际应用。例如，在土木工程领域，准确的海拔数据对于道路、桥梁和建筑物的设计和施工至关重要。工程师依赖详细的地形图来评估排水模式、土壤稳定性以及与海拔变化相关的潜在危险。不充分的elevation resolution可能导致代价高昂的错误和安全风险，这突显了投资高质量海拔数据的重要性。此外，elevation resolution与气候变化之间的关系也不容忽视。随着全球气温上升和冰盖融化，理解这些变化如何影响海平面和土地海拔变得越来越重要。高分辨率的海拔数据使科学家能够建模对沿海社区和生态系统的潜在影响，从而为政策决策和保护工作提供信息。通过利用先进技术来提高elevation resolution，我们可以更好地为应对气候变化带来的挑战做好准备。总之，elevation resolution是地理和环境科学研究中的一个基本概念。它的重要性跨越多个领域，从城市规划和土木工程到气候研究和生态监测。随着技术的不断发展，我们可以期待进一步提升捕获和分析海拔数据的能力，最终导致更明智的决策，有利于整个社会。强调高elevation resolution的必要性将确保我们能够应对动态世界的复杂性，为可持续发展和有效资源管理铺平道路。