telemetry antenna

简明释义

测距天线

英英释义

例句

1.A malfunctioning telemetry antenna can lead to loss of communication with the rover on Mars.

故障的遥测天线可能导致与火星探测器失去通信。

2.The telemetry antenna on the weather balloon helps scientists collect atmospheric data from various altitudes.

气象气球上的遥测天线帮助科学家从不同高度收集大气数据。

3.During the satellite launch, engineers monitored the data transmitted through the telemetry antenna to ensure everything was functioning correctly.

在卫星发射期间，工程师通过遥测天线监控传输的数据，以确保一切正常运作。

4.The spacecraft is equipped with a high-gain telemetry antenna that allows it to communicate with mission control.

这艘航天器配备了一个高增益遥测天线，使其能够与任务控制中心进行通信。

5.To improve signal quality, the team upgraded the telemetry antenna on their drone.

为了提高信号质量，团队升级了他们无人机上的遥测天线。

作文

In the world of modern technology, communication and data collection play crucial roles in various fields, from space exploration to environmental monitoring. One key component that facilitates these processes is the telemetry antenna. A telemetry antenna is a specialized device used to transmit and receive data remotely. It is particularly vital in situations where direct access to the data source is not feasible, such as in satellites orbiting the Earth or remote scientific instruments deployed in harsh environments.The primary function of a telemetry antenna is to relay information back to a central station for analysis and monitoring. For instance, in the context of space missions, satellites equipped with telemetry antennas send critical data about their status, position, and the environmental conditions they encounter. This data is essential for mission control teams to ensure the successful operation of the spacecraft and to make informed decisions based on real-time information.Moreover, telemetry antennas are not limited to space applications. They are also widely used in various industries, including agriculture, transportation, and healthcare. In agriculture, for example, sensors placed in fields can collect data on soil moisture levels, temperature, and crop health. These sensors use telemetry antennas to transmit the collected data to farmers, enabling them to make timely decisions regarding irrigation and fertilization.In transportation, telemetry antennas are employed in fleet management systems. Vehicles equipped with GPS and telemetry technology can relay their location and operational status to a central system, allowing companies to monitor their fleets in real time. This capability enhances efficiency, reduces costs, and improves safety by providing immediate information about vehicle conditions.Healthcare is another area where telemetry antennas have made significant contributions. Wearable health devices, such as heart rate monitors and fitness trackers, often utilize telemetry antennas to send data to smartphones or medical databases. This continuous stream of information helps healthcare professionals monitor patients' health remotely, leading to better patient outcomes and more proactive care.The design and functionality of telemetry antennas vary depending on their intended application. Some are designed for long-range communication, while others are optimized for short-range connections. Factors such as frequency, bandwidth, and power consumption are taken into account during the design process to ensure that the telemetry antenna meets the specific needs of its application.In conclusion, the telemetry antenna is an indispensable tool in the realm of data collection and communication. Its ability to transmit and receive data from remote locations has transformed various industries and enhanced our understanding of the world. As technology continues to advance, the role of telemetry antennas will undoubtedly expand, paving the way for new innovations and applications that will further improve our ability to monitor and respond to changing conditions around us.

在现代科技的世界中，通信和数据收集在各个领域中扮演着至关重要的角色，从太空探索到环境监测。促进这些过程的一个关键组件是遥测天线。遥测天线是一种专门的设备，用于远程传输和接收数据。它在直接访问数据源不可行的情况下尤为重要，例如在绕地球轨道飞行的卫星或部署在恶劣环境中的远程科学仪器中。遥测天线的主要功能是将信息传回中央站进行分析和监控。例如，在太空任务的背景下，配备有遥测天线的卫星会发送关于其状态、位置和所遇环境条件的重要数据。这些数据对于任务控制团队确保航天器成功运行至关重要，并根据实时信息做出明智决策。此外，遥测天线并不限于太空应用。它们在农业、运输和医疗等多个行业中也得到了广泛应用。例如，在农业中，放置在田地中的传感器可以收集土壤湿度水平、温度和作物健康状况的数据。这些传感器使用遥测天线将收集到的数据传输给农民，使他们能够及时做出灌溉和施肥的决策。在运输方面，遥测天线被用于车队管理系统。配备有GPS和遥测技术的车辆可以将其位置信息和操作状态传递给中央系统，从而使公司能够实时监控其车队。这种能力提高了效率，降低了成本，并通过提供有关车辆状况的即时信息来改善安全性。医疗保健是另一个遥测天线发挥重大作用的领域。可穿戴健康设备，如心率监测器和健身追踪器，通常利用遥测天线将数据发送到智能手机或医疗数据库。这种持续的信息流帮助医疗专业人员远程监控患者的健康，从而改善患者的治疗效果并实现更主动的护理。遥测天线的设计和功能根据其预期应用而有所不同。有些设计用于长距离通信，而其他则优化用于短距离连接。在设计过程中考虑了频率、带宽和功耗等因素，以确保遥测天线满足其应用的特定需求。总之，遥测天线是数据收集和通信领域不可或缺的工具。它从远程位置传输和接收数据的能力改变了各个行业，并增强了我们对世界的理解。随着技术的不断进步，遥测天线的作用无疑将扩大，为新的创新和应用铺平道路，从而进一步提高我们监测和应对周围变化条件的能力。