airborne 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 airborne scanner was instrumental in detecting changes in land use over the past decade.

这个空中扫描仪在检测过去十年土地利用变化方面发挥了重要作用。

2.The city used an airborne scanner to map out the new urban development areas.

这座城市使用了一个空中扫描仪来绘制新的城市开发区域。

3.An airborne scanner can capture high-resolution images of the terrain for geological studies.

一个空中扫描仪可以捕捉地形的高分辨率图像，用于地质研究。

4.Using an airborne scanner, the team identified several archaeological sites previously unknown.

利用一个空中扫描仪，团队识别出几个之前未知的考古遗址。

5.By employing an airborne scanner, researchers were able to assess the forest's health from above.

通过使用一个空中扫描仪，研究人员能够从空中评估森林的健康状况。

作文

In recent years, the advancement of technology has significantly transformed various fields, especially in environmental monitoring and mapping. One notable innovation is the use of the airborne scanner, a device that plays a crucial role in collecting data from the atmosphere. An airborne scanner refers to a remote sensing technology mounted on aircraft to capture high-resolution images and data of the Earth's surface. This technology has numerous applications, ranging from forestry management to urban planning and disaster response.The primary advantage of utilizing an airborne scanner is its ability to cover vast areas quickly and efficiently. Traditional ground surveys can be time-consuming and labor-intensive, often requiring extensive manpower and resources. In contrast, an airborne scanner can survey large regions in a fraction of the time, providing comprehensive data that would be difficult to obtain otherwise. For instance, in forestry management, the airborne scanner can assess tree density, species distribution, and overall forest health, enabling better decision-making for conservation efforts.Moreover, the data collected by an airborne scanner is often more accurate than that obtained through ground surveys. The high-resolution images and precise measurements allow researchers and planners to analyze landscapes with great detail. This accuracy is particularly beneficial in urban planning, where city planners can use the data to create detailed maps that inform infrastructure development and land use policies. By leveraging the capabilities of an airborne scanner, cities can grow sustainably while minimizing environmental impact.Another significant application of the airborne scanner is in disaster response and management. After natural disasters such as floods, earthquakes, or wildfires, rapid assessment of the affected areas is critical for effective response and recovery. An airborne scanner can quickly provide aerial imagery and data, helping emergency responders evaluate damage and prioritize recovery efforts. This swift action can save lives and reduce the economic impact of disasters.Furthermore, the integration of airborne scanners with other technologies, such as Geographic Information Systems (GIS) and machine learning, enhances their effectiveness. By combining the spatial data from the airborne scanner with analytical tools, researchers can identify patterns, trends, and anomalies that may not be visible through traditional methods. This synergy between technologies opens up new possibilities for research and practical applications in various fields.Despite the numerous benefits, there are challenges associated with the use of airborne scanners. The cost of acquiring and operating these systems can be substantial, which may limit their accessibility for smaller organizations or developing countries. Additionally, the interpretation of the data requires specialized knowledge and skills, necessitating training for personnel involved in data analysis.In conclusion, the airborne scanner represents a significant advancement in remote sensing technology, offering efficient and accurate data collection for various applications. Its role in environmental monitoring, urban planning, and disaster response underscores its importance in addressing contemporary challenges. As technology continues to evolve, the potential for airborne scanners to contribute to sustainable development and informed decision-making will only increase, making it a valuable tool for the future.

近年来，技术的进步显著改变了各个领域，尤其是在环境监测和制图方面。其中一个显著的创新是使用空中扫描仪，这种设备在收集大气数据方面发挥着至关重要的作用。空中扫描仪是指安装在飞机上的遥感技术，用于捕获地球表面的高分辨率图像和数据。这项技术有许多应用，从林业管理到城市规划和灾害响应。利用空中扫描仪的主要优势在于其能够快速高效地覆盖广阔区域。传统的地面调查可能耗时且劳动密集，通常需要大量的人力和资源。相比之下，空中扫描仪可以在短时间内对大区域进行调查，提供全面的数据，而这些数据在其他情况下难以获得。例如，在林业管理中，空中扫描仪可以评估树木密度、物种分布和整体森林健康，从而更好地为保护工作做出决策。此外，空中扫描仪收集的数据通常比通过地面调查获得的数据更为准确。高分辨率的图像和精确的测量允许研究人员和规划者对景观进行详细分析。这种准确性在城市规划中尤为重要，城市规划者可以利用这些数据创建详细的地图，以指导基础设施建设和土地使用政策。通过利用空中扫描仪的能力，城市可以可持续发展，同时尽量减少对环境的影响。空中扫描仪的另一个重要应用是在灾害响应和管理中。在自然灾害如洪水、地震或野火之后，迅速评估受影响地区对于有效响应和恢复至关重要。空中扫描仪可以快速提供航空影像和数据，帮助应急响应人员评估损害并优先考虑恢复工作。这种快速行动可以挽救生命并减少灾害的经济影响。此外，将空中扫描仪与其他技术（如地理信息系统（GIS）和机器学习）相结合，增强了其有效性。通过将空中扫描仪的空间数据与分析工具结合，研究人员可以识别出通过传统方法可能看不到的模式、趋势和异常。这种技术之间的协同作用为各个领域的研究和实际应用开辟了新的可能性。尽管有许多好处，但使用空中扫描仪也面临挑战。获取和操作这些系统的成本可能相当高，这可能限制了小型组织或发展中国家的可及性。此外，数据的解释需要专业知识和技能，因此需要对参与数据分析的人员进行培训。总之，空中扫描仪代表了遥感技术的重要进步，为各种应用提供了高效和准确的数据收集。它在环境监测、城市规划和灾害响应中的作用凸显了其在应对当代挑战中的重要性。随着技术的不断发展，空中扫描仪在可持续发展和明智决策方面的潜力只会增加，使其成为未来的宝贵工具。