airboune survey

简明释义

1. 航空测量; 2. 航测;

英英释义

例句

1.Using advanced technology, the team completed an airborne survey of the forest to assess its health.

利用先进技术，团队完成了对森林的空中调查以评估其健康状况。

2.The government funded an airborne survey to monitor changes in land use over the past decade.

政府资助了一项空中调查以监测过去十年土地使用的变化。

3.The results from the airborne survey indicated potential oil reserves beneath the surface.

来自空中调查的结果显示地下可能存在石油储备。

4.The geologists conducted an airborne survey to map the mineral deposits in the region.

地质学家进行了一个空中调查以绘制该地区的矿藏分布图。

5.An airborne survey can provide crucial data for environmental impact assessments.

一个空中调查可以为环境影响评估提供重要数据。

作文

The advancement of technology has significantly changed the way we conduct surveys and gather data. One such innovative method is the airborne survey, which involves using aircraft or drones to collect information about the Earth's surface and its features. This technique is particularly useful in various fields, including geology, environmental science, and urban planning. The airborne survey allows researchers to cover large areas quickly and efficiently, providing a comprehensive view of the landscape that ground surveys may not achieve. An airborne survey typically employs remote sensing technologies, such as LiDAR (Light Detection and Ranging) or aerial photography, to capture detailed images and data from above. For example, LiDAR can penetrate forest canopies to reveal the underlying topography, which is invaluable for understanding terrain changes, assessing flood risks, and planning infrastructure projects. By utilizing an airborne survey, scientists can gather high-resolution data that aids in more accurate modeling and analysis.In addition to geological studies, airborne surveys play a crucial role in environmental monitoring. They can be used to track changes in land use, deforestation, and habitat destruction. With climate change being a pressing global issue, these surveys provide essential data to help policymakers make informed decisions regarding conservation efforts and resource management. Furthermore, the ability to monitor environmental changes over time allows researchers to assess the effectiveness of various strategies aimed at mitigating negative impacts on ecosystems.Urban planners also benefit from airborne surveys as they provide critical insights into existing infrastructure and land use patterns. By analyzing the data collected, planners can identify areas in need of development or improvement, ensuring that urban growth is sustainable and efficient. The speed and accuracy of airborne surveys enable cities to adapt to changing populations and evolving needs, ultimately enhancing the quality of life for residents.Despite their many advantages, airborne surveys are not without challenges. The cost of conducting these surveys can be significant, particularly when specialized equipment and skilled personnel are required. Additionally, weather conditions can impact the quality of the data collected, necessitating careful planning and execution. However, advancements in drone technology are making airborne surveys more accessible and affordable, allowing smaller organizations and researchers to utilize this powerful tool.In conclusion, the airborne survey represents a transformative approach to data collection and analysis across various disciplines. Its ability to provide high-resolution, comprehensive data quickly makes it an invaluable resource for researchers, environmentalists, and urban planners alike. As technology continues to evolve, the potential applications of airborne surveys will only expand, leading to even greater insights into our planet and how we manage it. Embracing this innovative method will undoubtedly enhance our understanding of the complex interactions between human activities and the natural world, paving the way for a more sustainable future.

科技的进步显著改变了我们进行调查和收集数据的方式。其中一种创新方法是空中调查，它涉及使用飞机或无人机收集有关地球表面及其特征的信息。这项技术在地质学、环境科学和城市规划等多个领域特别有用。空中调查使研究人员能够快速高效地覆盖大面积区域，提供对地形的全面视角，而地面调查可能无法实现。 空中调查通常采用遥感技术，如激光雷达（LiDAR）或航拍摄影，从空中捕捉详细的图像和数据。例如，LiDAR可以穿透森林树冠，揭示底层地形，这对了解地形变化、评估洪水风险和规划基础设施项目至关重要。通过利用空中调查，科学家可以收集高分辨率的数据，有助于更准确的建模和分析。除了地质研究，空中调查在环境监测中也发挥着关键作用。它们可以用于跟踪土地利用、森林砍伐和栖息地破坏的变化。随着气候变化成为全球紧迫问题，这些调查提供了重要数据，帮助决策者就保护工作和资源管理做出明智决定。此外，能够随时间监测环境变化使研究人员能够评估各种旨在减轻对生态系统负面影响的策略的有效性。城市规划者也从空中调查中受益，因为它们提供了对现有基础设施和土地利用模式的关键洞察。通过分析收集的数据，规划者可以识别需要开发或改善的区域，确保城市增长既可持续又高效。空中调查的速度和准确性使城市能够适应不断变化的人口和发展需求，最终提高居民的生活质量。尽管有许多优点，但空中调查并非没有挑战。进行这些调查的成本可能相当高，特别是在需要专业设备和熟练人员的情况下。此外，天气条件可能会影响收集数据的质量，因此需要仔细规划和执行。然而，无人机技术的进步使得空中调查变得更加可及和经济实惠，使得较小的组织和研究人员也能利用这一强大工具。总之，空中调查代表了一种对各个学科数据收集和分析的变革性方法。它快速提供高分辨率、全面的数据的能力使其成为研究人员、环保主义者和城市规划者的重要资源。随着技术的不断发展，空中调查的潜在应用将只会扩大，从而为我们对地球及其管理的理解提供更大的见解。接受这种创新方法无疑将增强我们对人类活动与自然世界之间复杂互动的理解，为更可持续的未来铺平道路。