radiolocation

简明释义

英[/ˌreɪdioʊləkˈeɪʃən/]美[/ˌreɪdioʊləkˈeɪʃən/]

无线电定位

英英释义

单词用法

同义词

反义词

例句

1.An extended Kalman filtering (EKF) algorithm is designed for radiolocation in cellular communication system, simulation is conducted to examine its performance.

设计了一种蜂窝系统无线定位中使用的扩展卡尔曼滤波(ekf)算法，对其性能进行了仿真。

2.An extended Kalman filtering (EKF) algorithm is designed for radiolocation in cellular communication system, simulation is conducted to examine its performance.

设计了一种蜂窝系统无线定位中使用的扩展卡尔曼滤波(ekf)算法，对其性能进行了仿真。

3.The ship is equipped with a complete set of radiolocation equipment, homing heads and locations stations.

这艘船配备了一套完整的无线电定位设备，导航弹头和定位站位。

4.The military uses radiolocation to track enemy aircraft over long distances.

军方使用辐射定位来跟踪远距离的敌方飞机。

5.Modern ships are equipped with radiolocation systems to navigate through foggy waters.

现代船只配备有辐射定位系统，以便在雾蒙蒙的水域中导航。

6.Wildlife researchers employ radiolocation to monitor the movements of endangered species.

野生动物研究人员利用辐射定位来监测濒危物种的活动。

7.The rescue team used radiolocation technology to locate survivors trapped under rubble.

救援队利用辐射定位技术找到被废墟困住的幸存者。

8.Air traffic controllers rely on radiolocation to ensure safe takeoffs and landings.

空中交通管制员依靠辐射定位来确保安全起飞和降落。

作文

Radiolocation is a fascinating technology that has transformed the way we perceive and interact with our environment. It refers to the use of electromagnetic waves, such as radio waves, to determine the location of objects or to navigate through space. The term radiolocation (无线电定位) encompasses various applications, including aviation, maritime navigation, and even in some aspects of civilian life like smartphones and GPS systems. One of the most significant advancements in radiolocation (无线电定位) technology is its application in aviation. Modern aircraft are equipped with radar systems that utilize radiolocation (无线电定位) to detect other aircraft and obstacles in their flight path. This capability not only enhances safety but also allows for more efficient air traffic management. By accurately tracking the position of planes, air traffic controllers can ensure safe distances between aircraft, reducing the risk of collisions. In maritime contexts, radiolocation (无线电定位) plays a crucial role in navigation. Ships use radar systems to identify nearby vessels, landmasses, and navigational hazards. This technology is especially vital in congested waterways where visibility may be limited due to weather conditions or nighttime travel. Radiolocation (无线电定位) enables mariners to make informed decisions, ensuring safer journeys across oceans and seas. Beyond transportation, radiolocation (无线电定位) has found its way into everyday technology that many of us rely on. For instance, smartphones utilize a combination of GPS and cellular signals to provide location-based services. When you use a mapping application to find directions, your device is employing radiolocation (无线电定位) principles to pinpoint your exact location and guide you to your destination. This integration of radiolocation (无线电定位) in consumer technology has revolutionized how we navigate and interact with our surroundings. The military also heavily relies on radiolocation (无线电定位) for surveillance and reconnaissance purposes. Advanced radar systems allow for the detection of enemy aircraft and missiles at great distances, providing critical information for strategic planning and defense. This capability underscores the importance of radiolocation (无线电定位) in maintaining national security and responding to potential threats. However, despite its numerous benefits, radiolocation (无线电定位) technology is not without challenges. Issues such as signal interference, environmental factors, and technological limitations can affect the accuracy and reliability of radiolocation (无线电定位) systems. As technology continues to evolve, researchers and engineers are actively working to enhance these systems, making them more robust and efficient. In conclusion, radiolocation (无线电定位) is an essential technology that impacts various sectors, from aviation and maritime navigation to personal devices and military applications. Its ability to accurately determine the location of objects using electromagnetic waves has not only improved safety and efficiency but has also changed the way we navigate our world. As we look to the future, the continued advancement of radiolocation (无线电定位) will undoubtedly lead to even more innovative applications, further integrating this technology into our daily lives.

无线电定位是一项迷人的技术，改变了我们感知和与环境互动的方式。它是指使用电磁波，如无线电波，来确定物体的位置或在空间中导航。术语radiolocation（无线电定位）包含各种应用，包括航空、海上导航，甚至在一些民用生活方面，如智能手机和GPS系统。 Radiolocation（无线电定位）技术的一个重大进展是其在航空中的应用。现代飞机配备了雷达系统，利用radiolocation（无线电定位）来探测其他飞机和飞行路径中的障碍物。这一能力不仅增强了安全性，还允许更高效的空中交通管理。通过准确跟踪飞机的位置，空中交通管制员可以确保飞机之间保持安全距离，从而减少碰撞风险。 在海事背景下，radiolocation（无线电定位）在导航中发挥着至关重要的作用。船舶使用雷达系统识别附近的船只、陆地和导航危险。这项技术在航道拥挤的水域中尤其重要，因为能见度可能因天气条件或夜间航行而受到限制。Radiolocation（无线电定位）使海员能够做出明智的决定，确保在海洋和海洋上的安全航行。 除了交通，radiolocation（无线电定位）还进入了许多我们依赖的日常技术。例如，智能手机利用GPS和蜂窝信号的组合提供基于位置的服务。当您使用地图应用程序查找方向时，您的设备正在利用radiolocation（无线电定位）原理来精确定位您的位置并引导您到达目的地。这种radiolocation（无线电定位）与消费技术的整合彻底改变了我们导航和与周围环境互动的方式。 军方也严重依赖radiolocation（无线电定位）进行监视和侦察。先进的雷达系统允许在远距离探测敌方飞机和导弹，为战略规划和防御提供关键信息。这一能力强调了radiolocation（无线电定位）在维护国家安全和应对潜在威胁中的重要性。 然而，尽管有许多好处，radiolocation（无线电定位）技术并非没有挑战。信号干扰、环境因素和技术限制等问题可能影响radiolocation（无线电定位）系统的准确性和可靠性。随着技术的不断发展，研究人员和工程师正积极致力于增强这些系统，使其更加健壮和高效。 总之，radiolocation（无线电定位）是一项影响各个领域的重要技术，从航空和海上导航到个人设备和军事应用。它能够使用电磁波准确确定物体的位置，不仅提高了安全性和效率，而且改变了我们导航世界的方式。展望未来，radiolocation（无线电定位）的持续进步无疑将导致更多创新应用，进一步将这项技术融入我们的日常生活。