airboune scanner

简明释义

1. 机载扫描仪; 2. 航空扫描仪;

英英释义

例句

1.The environmental agency employed an airborne scanner to detect pollution levels in the air.

环保局使用了一台空中扫描仪来检测空气中的污染水平。

2.The military deployed an airborne scanner to survey the area for enemy positions.

军方部署了一台空中扫描仪来侦察敌方阵地。

3.An airborne scanner can quickly assess damage after a natural disaster.

一台空中扫描仪可以快速评估自然灾害后的损失情况。

4.During the wildfire, an airborne scanner helped locate hotspots that needed immediate attention.

在野火期间，一台空中扫描仪帮助找到需要立即处理的热点。

5.Farmers use an airborne scanner to monitor crop health from above.

农民使用空中扫描仪从空中监测作物健康。

作文

In recent years, technology has advanced significantly, leading to the development of various tools that enhance our understanding of the world around us. One such tool is the airborne scanner, which has gained prominence in fields such as environmental monitoring, agriculture, and urban planning. An airborne scanner is a device mounted on an aircraft that collects data about the Earth's surface using various sensors. These scanners can capture high-resolution images and gather information about vegetation, topography, and even pollution levels. The ability to cover large areas quickly makes airborne scanners invaluable for researchers and professionals alike.The use of airborne scanners in agriculture has revolutionized the way farmers manage their crops. By analyzing data collected from these scanners, farmers can identify areas that require more water, nutrients, or pest control. This precision farming approach not only increases crop yields but also reduces waste and environmental impact. For instance, a farmer can use the information gathered by an airborne scanner to determine which sections of a field are underperforming and make targeted interventions, rather than treating the entire field uniformly.Moreover, airborne scanners play a crucial role in environmental conservation. They can monitor changes in land use, deforestation rates, and the health of ecosystems. By providing detailed and up-to-date information, these scanners help conservationists make informed decisions about protecting endangered species and habitats. For example, researchers can use data from an airborne scanner to track the migration patterns of animals or assess the impact of climate change on specific regions.Urban planners also benefit from the capabilities of airborne scanners. By analyzing aerial imagery and data, they can better understand urban growth patterns and infrastructure needs. This information is essential for making strategic decisions regarding zoning, transportation, and public services. An airborne scanner can provide a comprehensive view of a city, allowing planners to visualize how different areas are developing and where improvements are necessary.In addition to these applications, airborne scanners have proven useful in disaster management. After natural disasters such as hurricanes or earthquakes, these scanners can quickly assess damage and help emergency responders prioritize their efforts. The speed and accuracy of data collection from an airborne scanner enable authorities to allocate resources effectively and ensure that affected communities receive the assistance they need in a timely manner.Despite their numerous advantages, the use of airborne scanners is not without challenges. The cost of acquiring and operating these technologies can be significant, which may limit their accessibility for some organizations or regions. Additionally, the interpretation of data collected by airborne scanners requires specialized skills and knowledge. As technology continues to evolve, it is essential for professionals in various fields to stay updated on the latest advancements and best practices related to airborne scanners.In conclusion, the airborne scanner is a powerful tool that has transformed multiple industries by providing valuable insights into the Earth's surface. From agriculture to urban planning and environmental conservation, the applications of airborne scanners are vast and varied. As we continue to face global challenges such as food security and climate change, the importance of utilizing advanced technologies like airborne scanners will only grow. By embracing these innovations, we can make more informed decisions that benefit both our communities and the planet.

近年来，科技显著进步，导致各种工具的发展，这些工具增强了我们对周围世界的理解。其中一个工具是空中扫描仪，它在环境监测、农业和城市规划等领域变得越来越重要。空中扫描仪是一种安装在飞机上的设备，利用各种传感器收集有关地球表面的数据。这些扫描仪可以捕捉高分辨率图像并收集有关植被、地形甚至污染水平的信息。快速覆盖大面积的能力使得空中扫描仪对研究人员和专业人士来说都非常宝贵。在农业中使用空中扫描仪彻底改变了农民管理作物的方式。通过分析从这些扫描仪收集的数据，农民可以识别出需要更多水分、营养或害虫控制的区域。这种精准农业方法不仅提高了作物产量，还减少了浪费和对环境的影响。例如，农民可以利用空中扫描仪收集的信息来确定田地中哪些部分表现不佳，并进行有针对性的干预，而不是对整个田地进行统一处理。此外，空中扫描仪在环境保护中也发挥着至关重要的作用。它们可以监测土地利用变化、森林砍伐率和生态系统健康状况。通过提供详细和最新的信息，这些扫描仪帮助保护主义者做出关于保护濒危物种和栖息地的明智决策。例如，研究人员可以使用来自空中扫描仪的数据来追踪动物的迁徙模式或评估气候变化对特定地区的影响。城市规划者也受益于空中扫描仪的能力。通过分析航空影像和数据，他们可以更好地理解城市增长模式和基础设施需求。这些信息对于在分区、交通和公共服务方面做出战略决策至关重要。空中扫描仪可以提供城市的全面视图，使规划者能够可视化不同区域的发展情况以及需要改善的地方。除了这些应用，空中扫描仪在灾难管理中也证明了其价值。在飓风或地震等自然灾害发生后，这些扫描仪可以迅速评估损失，并帮助应急响应人员优先处理工作。从空中扫描仪收集的数据的速度和准确性使得当局能够有效分配资源，确保受影响社区及时获得所需的援助。尽管有许多优点，使用空中扫描仪也面临挑战。获取和操作这些技术的成本可能很高，这可能限制某些组织或地区的可及性。此外，解读由空中扫描仪收集的数据需要专业技能和知识。随着技术的不断发展，各个领域的专业人士必须随时了解与空中扫描仪相关的最新进展和最佳实践。总之，空中扫描仪是一种强大的工具，通过提供宝贵的地球表面洞察力，改变了多个行业。从农业到城市规划和环境保护，空中扫描仪的应用广泛而多样。随着我们继续面临全球挑战，如粮食安全和气候变化，利用先进技术如空中扫描仪的重要性将只会增加。通过拥抱这些创新，我们可以做出更明智的决策，造福我们的社区和地球。