ranging system

简明释义

测距系统

英英释义

例句

1.Our research team developed a ranging system that can operate in extreme weather conditions.

我们的研究团队开发了一种可以在极端天气条件下工作的测距系统。

2.The new drone is equipped with an advanced ranging system for better navigation.

这款新无人机配备了先进的测距系统以改善导航。

3.In construction, a ranging system helps surveyors measure land accurately.

在建筑中，测距系统帮助测量员准确测量土地。

4.The military uses a sophisticated ranging system to determine the distance of targets.

军方使用复杂的测距系统来确定目标的距离。

5.The ranging system used in this experiment measures distances with high precision.

在这个实验中使用的测距系统能够高精度地测量距离。

作文

In the field of technology and engineering, the term ranging system refers to a method or device used to determine the distance between two points. This concept is crucial in various applications, including navigation, surveying, and robotics. A ranging system typically utilizes signals, such as sound waves or electromagnetic waves, to measure distances accurately. For example, in sonar technology, sound waves are emitted underwater, and the time it takes for them to return after hitting an object is measured to calculate the distance to that object. Similarly, in radar systems, radio waves are used to detect the distance of an object in the atmosphere.One of the most common examples of a ranging system is the Global Positioning System (GPS). GPS technology employs a network of satellites that continuously send out signals. A GPS receiver calculates its position by determining how long it takes for the signals from multiple satellites to reach it. This process involves triangulation, where the distances from at least three satellites are measured to pinpoint the receiver's location on Earth. The accuracy of GPS demonstrates the effectiveness of modern ranging systems in everyday life, enabling navigation for vehicles, smartphones, and even drones.In addition to GPS, laser ranging systems have gained popularity in various industries. These systems use laser beams to measure distances with high precision. They are widely used in construction, where accurate measurements are critical for building structures. Laser rangefinders can quickly provide measurements of distances up to several kilometers, making them invaluable tools for architects and engineers.The advancements in ranging systems have also paved the way for innovations in autonomous vehicles. Self-driving cars rely on a combination of sensors, including LIDAR (Light Detection and Ranging), to perceive their surroundings. LIDAR systems emit laser pulses and measure the time it takes for the light to bounce back, creating a detailed 3D map of the environment. This information is essential for the vehicle to navigate safely and effectively, avoiding obstacles and understanding traffic conditions.Furthermore, the application of ranging systems extends beyond transportation. In the field of telecommunications, these systems are employed to improve wireless communication. By accurately measuring the distance between antennas and devices, network providers can optimize signal strength and coverage, ensuring better connectivity for users.Despite the numerous advantages of ranging systems, there are challenges associated with their use. Environmental factors, such as weather conditions or obstacles, can affect the accuracy of measurements. For instance, heavy rain or fog can interfere with radar and laser signals, leading to discrepancies in distance calculations. Therefore, ongoing research aims to enhance the reliability and robustness of these systems, making them more resilient to external influences.In conclusion, ranging systems play a vital role in modern technology, influencing various sectors, including navigation, construction, and telecommunications. Their ability to measure distances accurately has transformed how we interact with our environment, paving the way for innovations that were once thought to be science fiction. As technology continues to evolve, the importance of ranging systems will only increase, driving further advancements and applications in the future.

在技术和工程领域，术语ranging system指的是用于确定两点之间距离的方法或设备。这个概念在导航、测量和机器人等各种应用中至关重要。ranging system通常利用信号，如声波或电磁波，来准确测量距离。例如，在声呐技术中，声波在水下发射，测量它们撞击物体后返回所需的时间，以计算到该物体的距离。同样，在雷达系统中，使用无线电波来检测大气中物体的距离。最常见的ranging system示例之一是全球定位系统（GPS）。GPS技术利用一个不断发送信号的卫星网络。GPS接收器通过确定来自多个卫星的信号到达所需的时间来计算其位置。该过程涉及三角测量，其中测量至少三个卫星的距离，以确定接收器在地球上的位置。GPS的准确性展示了现代ranging systems在日常生活中的有效性，使车辆、智能手机甚至无人机的导航成为可能。除了GPS之外，激光测距系统在各个行业中也越来越受欢迎。这些系统使用激光束以高精度测量距离。它们在建筑中被广泛应用，因为准确的测量对于建造结构至关重要。激光测距仪可以快速提供高达几公里的距离测量，使其成为建筑师和工程师不可或缺的工具。ranging systems的进步也为自主车辆的创新铺平了道路。自动驾驶汽车依赖于包括LIDAR（光探测与测距）在内的多种传感器来感知其周围环境。LIDAR系统发射激光脉冲，并测量光线反弹所需的时间，创建环境的详细3D地图。这些信息对于车辆安全有效地导航至关重要，能够避免障碍物并理解交通状况。此外，ranging systems的应用超越了交通运输。在电信领域，这些系统被用来改善无线通信。通过准确测量天线和设备之间的距离，网络提供商可以优化信号强度和覆盖范围，确保用户更好的连接。尽管ranging systems有许多优势，但其使用也面临挑战。环境因素，如天气条件或障碍物，可能会影响测量的准确性。例如，暴雨或雾霾会干扰雷达和激光信号，导致距离计算出现差异。因此，持续的研究旨在增强这些系统的可靠性和稳健性，使其更能抵御外部影响。总之，ranging systems在现代技术中扮演着至关重要的角色，影响着导航、建筑和电信等多个领域。它们准确测量距离的能力改变了我们与环境的互动方式，为曾经被认为是科幻的创新铺平了道路。随着技术的不断发展，ranging systems的重要性将只会增加，推动未来进一步的进步和应用。