radar measurement

简明释义

雷达量测

英英释义

例句

1.In maritime navigation, radar measurement is crucial for avoiding collisions.

在海上导航中，雷达测量对避免碰撞至关重要。

2.The aircraft's position was determined using radar measurement.

飞机的位置是通过雷达测量确定的。

3.Traffic management systems utilize radar measurement to monitor vehicle speeds.

交通管理系统利用雷达测量来监测车辆速度。

4.Using radar measurement, scientists can monitor the movement of glaciers.

科学家可以使用雷达测量来监测冰川的运动。

5.The weather station relies on radar measurement to track storm systems.

气象站依赖于雷达测量来跟踪风暴系统。

作文

Radar technology has significantly evolved over the years, and one of its most important applications is in the field of measurement. The term radar measurement refers to the use of radar systems to determine the distance, speed, and other characteristics of objects. This technology operates by emitting radio waves that bounce off objects and return to the radar system, allowing for accurate data collection. In this essay, we will explore the fundamentals of radar measurement and its various applications in different industries.The basic principle behind radar measurement involves the transmission of radio waves. When these waves encounter an object, they are reflected back to the radar receiver. By calculating the time it takes for the waves to return, the radar system can determine the distance to the object. This method is not only quick but also highly effective, making it ideal for various applications.One of the most common uses of radar measurement is in aviation. Air traffic control relies heavily on radar systems to monitor aircraft positions and ensure safe distances between them. By utilizing radar measurement, controllers can track the speed and altitude of planes, which is crucial for maintaining safety in crowded airspace. This application highlights the importance of precise measurements in preventing accidents and ensuring efficient flight operations.Another significant area where radar measurement plays a vital role is in weather forecasting. Meteorologists use radar systems to detect precipitation, storm patterns, and wind speeds. By analyzing the data collected through radar measurement, they can provide timely warnings about severe weather conditions, helping to save lives and minimize property damage. This capability has revolutionized the way we prepare for and respond to natural disasters.In addition to aviation and meteorology, radar measurement is also utilized in the automotive industry. Modern vehicles are increasingly equipped with radar systems for advanced driver assistance features such as adaptive cruise control and collision avoidance systems. These systems rely on radar measurement to detect the distance and speed of surrounding vehicles, allowing for automatic adjustments in speed and braking. This technology enhances road safety and contributes to the development of autonomous driving systems.Furthermore, radar measurement is used in maritime navigation. Ships are equipped with radar systems to detect other vessels, landmasses, and obstacles in their path. By employing radar measurement, navigators can make informed decisions to avoid collisions and ensure safe passage through busy waterways. This application is particularly important in adverse weather conditions where visibility may be limited.In conclusion, radar measurement is a crucial technology that has transformed various industries by providing accurate and timely data. Its applications in aviation, meteorology, automotive, and maritime sectors demonstrate its versatility and importance in enhancing safety and efficiency. As technology continues to advance, we can expect further innovations in radar measurement, leading to even more sophisticated systems that will benefit society as a whole. Understanding the principles and applications of radar measurement is essential for appreciating its impact on our daily lives and the world around us.

雷达技术多年来显著发展，其中一个重要应用是测量领域。术语雷达测量指的是使用雷达系统来确定物体的距离、速度和其他特征。这项技术通过发射电波，电波碰到物体后反弹回雷达系统，从而实现准确的数据收集。在这篇文章中，我们将探讨雷达测量的基本原理及其在不同产业中的各种应用。雷达测量的基本原理涉及无线电波的传播。当这些波遇到物体时，会被反射回雷达接收器。通过计算波返回所需的时间，雷达系统可以确定物体的距离。这种方法不仅快速，而且非常有效，使其成为各种应用的理想选择。雷达测量最常见的用途之一是在航空领域。空中交通管制在监控飞机位置和确保安全间距方面严重依赖雷达系统。通过利用雷达测量，控制人员可以跟踪飞机的速度和高度，这对在拥挤的空域中保持安全至关重要。这个应用凸显了精确测量在防止事故和确保高效飞行操作中的重要性。雷达测量的另一个重要领域是天气预报。气象学家使用雷达系统来检测降水、风暴模式和风速。通过分析通过雷达测量收集的数据，他们可以及时警告严重天气情况，帮助拯救生命并减少财产损失。这种能力彻底改变了我们应对自然灾害的准备和响应方式。除了航空和气象外，雷达测量还在汽车工业中发挥着重要作用。现代车辆越来越多地配备雷达系统，用于先进的驾驶辅助功能，如自适应巡航控制和碰撞避免系统。这些系统依赖于雷达测量来检测周围车辆的距离和速度，从而自动调整速度和制动。这项技术提高了道路安全，并有助于自主驾驶系统的发展。此外，雷达测量还用于海事导航。船舶配备雷达系统以检测其他船只、陆地和航道中的障碍物。通过采用雷达测量，导航员可以做出明智的决策，以避免碰撞并确保安全通过繁忙的水域。在能见度有限的恶劣天气条件下，这一应用尤为重要。总之，雷达测量是一项关键技术，通过提供准确和及时的数据，改变了各个行业。它在航空、气象、汽车和海事领域的应用展示了其多样性和在增强安全性和效率方面的重要性。随着技术的不断进步，我们可以期待在雷达测量方面进一步的创新，导致更复杂的系统，造福整个社会。理解雷达测量的原理和应用对于欣赏其对我们日常生活和周围世界的影响至关重要。