telemetry mast

简明释义

遥测桅

英英释义

例句

1.Engineers installed a new telemetry mast to improve signal quality.

工程师安装了一座新的遥测塔以改善信号质量。

2.The research team relies on the telemetry mast for real-time data collection.

研究团队依赖于遥测塔进行实时数据收集。

3.The telemetry mast is crucial for monitoring environmental conditions.

这座遥测塔对于监测环境条件至关重要。

4.The data from the satellite was transmitted through the telemetry mast.

卫星的数据通过遥测塔传输。

5.We need to calibrate the instruments on the telemetry mast before the launch.

我们需要在发射前校准遥测塔上的仪器。

作文

In the modern world, technology plays an integral role in various sectors, including telecommunications, space exploration, and environmental monitoring. One of the essential components that facilitate these technologies is the telemetry mast, which is a structure designed to support equipment used for collecting and transmitting data over distances. This essay aims to explore the significance of the telemetry mast in different applications, its construction, and its impact on data communication. Telemetry refers to the process of recording and transmitting readings from instruments, which can be situated far from the observer. The telemetry mast serves as a critical infrastructure that enables this process by elevating antennas and other devices above obstacles such as buildings and trees, thereby enhancing signal strength and reliability. In the field of meteorology, for instance, weather stations often utilize telemetry masts to gather atmospheric data. These masts are equipped with sensors that measure temperature, humidity, wind speed, and other meteorological variables. The collected data is then transmitted wirelessly to central databases for analysis, allowing for accurate weather forecasting and climate research.In addition to meteorology, telemetry masts are pivotal in the realm of space exploration. Space agencies like NASA rely on these structures to communicate with spacecraft and satellites orbiting the Earth. The telemetry mast provides a stable platform for antennas that send and receive signals from space. For example, during missions to Mars, rovers are equipped with telemetry systems that relay information back to Earth. The data transmitted includes images, scientific measurements, and system health indicators, all of which are crucial for the success of the mission. Without the reliable operation of telemetry masts, the communication link between Earth and space would be severely compromised.Moreover, in the context of environmental monitoring, telemetry masts are used to track wildlife and study ecosystems. Researchers deploy these masts in remote areas to collect data on animal movements, habitat usage, and environmental changes. By equipping animals with transmitters that send signals to the telemetry mast, scientists can monitor their behavior and gather insights into their natural habitats. This information is invaluable for conservation efforts and helps in making informed decisions to protect endangered species.The construction of a telemetry mast involves several considerations, including height, material, and location. Typically made from materials like steel or aluminum, these masts must be sturdy enough to withstand harsh weather conditions. The height of the mast is crucial, as it determines the range and quality of the signals transmitted. Engineers must carefully select locations that minimize interference from surrounding structures and maximize line-of-sight communication. In conclusion, the telemetry mast is a vital component in various fields, including meteorology, space exploration, and environmental monitoring. Its ability to support antennas and sensors at elevated heights enhances data collection and transmission, leading to significant advancements in technology and science. As we continue to rely on data-driven decision-making, the importance of telemetry masts will only grow, underscoring the need for ongoing innovation in this area. Understanding the role of the telemetry mast not only highlights its technical significance but also emphasizes its contribution to our understanding of the world around us.

在现代世界中，技术在各个领域发挥着不可或缺的作用，包括电信、太空探索和环境监测。其中一个促进这些技术发展的重要组成部分是遥测塔，它是一种支持用于远程收集和传输数据设备的结构。本文旨在探讨遥测塔在不同应用中的重要性、其构造及其对数据通信的影响。遥测是指记录和传输仪器读数的过程，这些仪器可以位于观察者远处。遥测塔作为关键基础设施，通过将天线和其他设备提升到建筑物和树木等障碍物之上，从而增强信号强度和可靠性，促进了这一过程。例如，在气象学领域，气象站常常利用遥测塔来收集大气数据。这些塔配备有传感器，用于测量温度、湿度、风速和其他气象变量。收集到的数据随后通过无线方式传输到中央数据库进行分析，从而实现准确的天气预报和气候研究。除了气象学，遥测塔在太空探索领域也至关重要。像NASA这样的太空机构依赖这些结构与绕地球运行的航天器和卫星进行通信。遥测塔为发送和接收来自太空信号的天线提供了稳定的平台。例如，在火星任务期间，探测器配备了遥测系统，将信息回传到地球。传输的数据包括图像、科学测量和系统健康指标，这些对于任务的成功至关重要。如果没有遥测塔的可靠运作，地球与太空之间的通信链路将受到严重影响。此外，在环境监测方面，遥测塔被用于追踪野生动物和研究生态系统。研究人员在偏远地区部署这些塔，以收集动物移动、栖息地使用和环境变化的数据。通过为动物配备发送信号到遥测塔的发射器，科学家可以监测它们的行为，并收集有关其自然栖息地的见解。这些信息对于保护工作至关重要，有助于做出明智的决策以保护濒危物种。遥测塔的建设涉及多个考虑因素，包括高度、材料和位置。通常由钢或铝等材料制成，这些塔必须足够坚固，以承受恶劣的天气条件。塔的高度至关重要，因为它决定了传输信号的范围和质量。工程师必须仔细选择位置，以最小化周围结构的干扰并最大化视距通信。总之，遥测塔是气象学、太空探索和环境监测等多个领域的重要组成部分。它能够在高处支持天线和传感器，从而增强数据收集和传输，推动技术和科学的重大进步。随着我们继续依赖数据驱动的决策，遥测塔的重要性只会增加，强调了在这一领域持续创新的必要性。理解遥测塔的作用不仅突显了其技术重要性，也强调了它对我们理解周围世界的贡献。