high-rate telemetry

简明释义

高速遥测

英英释义

例句

1.Engineers rely on high-rate telemetry for real-time monitoring of spacecraft performance.

工程师依赖于高频遥测来实时监控航天器的性能。

2.During the launch, high-rate telemetry provides critical information about the rocket's status.

在发射过程中，高频遥测提供关于火箭状态的关键信息。

3.The new rover design includes high-rate telemetry capabilities for enhanced communication.

新的探测器设计包括高频遥测功能，以增强通信能力。

4.The satellite system is equipped with high-rate telemetry to transmit data back to Earth.

卫星系统配备了高频遥测以将数据传回地球。

5.Our research project utilizes high-rate telemetry to gather data from remote sensors.

我们的研究项目利用高频遥测从远程传感器收集数据。

作文

In the realm of modern technology, the term high-rate telemetry refers to the rapid transmission of data from remote sources to a receiving system. This process is crucial in various fields, including aerospace, telecommunications, and environmental monitoring. The ability to capture and transmit large volumes of data at high speeds enables real-time analysis and decision-making, which is vital for mission-critical operations.Telemetry itself is the science of measuring and transmitting data from one location to another. When we add the 'high-rate' qualifier, it signifies that the data being transmitted is coming in at an accelerated pace. For example, in space exploration, spacecraft are equipped with sensors that collect data on temperature, pressure, and other critical parameters. This data must be sent back to Earth as quickly as possible to ensure the safety and success of the mission. Here, high-rate telemetry plays a pivotal role, allowing scientists and engineers to monitor the spacecraft's systems in real-time and make necessary adjustments promptly.In the field of telecommunications, high-rate telemetry is equally important. Telecommunication companies rely on fast data transmission to provide high-quality services to their customers. For instance, mobile networks use high-rate telemetry to monitor network performance, detect faults, and optimize service delivery. By analyzing the data collected through high-rate telemetry, companies can enhance their infrastructure and improve user experience.Environmental monitoring is another area where high-rate telemetry has made significant contributions. Sensors deployed in various ecosystems collect data on air quality, water levels, and weather patterns. This information is transmitted at high rates to central databases, where it can be analyzed to track changes over time. Such rapid data collection is essential for addressing environmental issues, such as climate change, pollution, and natural disasters. With high-rate telemetry, researchers can respond more effectively to emerging threats and implement timely interventions.Moreover, high-rate telemetry is not limited to scientific and industrial applications; it also has implications in healthcare. Wearable devices, such as fitness trackers and smartwatches, utilize high-rate telemetry to monitor vital signs like heart rate and blood pressure. This continuous stream of data can be invaluable for both individuals and healthcare providers, enabling proactive health management and timely medical interventions.Despite its many advantages, implementing high-rate telemetry comes with challenges. The sheer volume of data generated can overwhelm existing infrastructure, necessitating advanced data processing and storage solutions. Additionally, ensuring the security of transmitted data is paramount, especially in sensitive applications like healthcare and national security. As technology evolves, so too do the methods and tools used to facilitate high-rate telemetry, making it an exciting area of ongoing research and development.In conclusion, high-rate telemetry is a vital component of modern technology that enables rapid data transmission across various fields. Its applications range from space exploration to telecommunications and environmental monitoring, demonstrating its versatility and importance. As we continue to advance technologically, the significance of high-rate telemetry will only grow, paving the way for innovations that can transform our understanding and interaction with the world around us.

在现代技术领域，术语高频遥测指的是从远程源到接收系统的数据快速传输。这个过程在航空航天、电信和环境监测等多个领域至关重要。以高速捕获和传输大量数据的能力使实时分析和决策成为可能，这对于关键任务操作至关重要。遥测本身是测量和传输数据从一个地点到另一个地点的科学。当我们添加“高频”这一修饰语时，它意味着传输的数据以加速的速度到达。例如，在太空探索中，航天器配备了传感器，收集温度、压力和其他关键参数的数据。这些数据必须尽快发送回地球，以确保任务的安全和成功。在这里，高频遥测发挥了关键作用，使科学家和工程师能够实时监控航天器的系统，并及时做出必要的调整。在电信领域，高频遥测同样重要。电信公司依赖快速的数据传输为客户提供高质量的服务。例如，移动网络使用高频遥测来监控网络性能、检测故障和优化服务交付。通过分析通过高频遥测收集的数据，公司可以增强其基础设施并改善用户体验。环境监测是高频遥测做出重大贡献的另一个领域。部署在各种生态系统中的传感器收集空气质量、水位和天气模式等数据。这些信息以高速传输到中央数据库，在那里可以分析以跟踪随时间变化的情况。这种快速的数据收集对解决环境问题，如气候变化、污染和自然灾害至关重要。借助高频遥测，研究人员可以更有效地应对新出现的威胁，并实施及时的干预。此外，高频遥测不仅限于科学和工业应用；它在医疗保健中也具有重要意义。可穿戴设备，如健身追踪器和智能手表，利用高频遥测监测心率和血压等生命体征。这种持续的数据流对个人和医疗提供者都极具价值，使得主动健康管理和及时的医疗干预成为可能。尽管有许多优点，但实施高频遥测也面临挑战。产生的数据庞大可能会使现有基础设施不堪重负，因此需要先进的数据处理和存储解决方案。此外，确保传输数据的安全性至关重要，特别是在医疗保健和国家安全等敏感应用中。随着技术的发展，用于促进高频遥测的方法和工具也在不断演变，使其成为一个令人兴奋的持续研究和开发领域。总之，高频遥测是现代技术的重要组成部分，使得在各个领域实现快速数据传输。它的应用范围从太空探索到电信和环境监测，展示了其多样性和重要性。随着我们继续技术进步，高频遥测的重要性只会增加，为转变我们对周围世界的理解和互动开辟道路。