telemetry
简明释义
n. [自] 遥测技术;遥感勘测;自动测量记录传导
英英释义
单词用法
遥测数据 |
同义词
反义词
例句
1.It USES the MQ Telemetry Transport (MQTT) protocol to enable you to monitor enterprise sensors using IBM MQ technology.
它使用MQ遥测传输(MQTT)协议支持您使用IBM MQ技术来监测企业传感器。
2.An essential part of bio-telemetry encompasses the transmission of data.
生物遥测术的一个基础的部分包括,传输数据。
3.Describes a new tipping bucket type telemetry runoff flow-meter with automatic measure amount and time of runoff.
介绍一种新型遥测径流量仪,可自动测量和记录径流量和时间这两个相关量。
4.Code synchronization and frame synchronization of the telemetry data play an important role in the telemetry data processing system.
码同步和帧同步在遥测数据处理系统中占有非常重要的地位。
5.Used for telemetry, observation of the fruit trees should not be flowering orchard nearby grazing and bees.
用于测报时,观测临近的果园果树花期不宜放养壁蜂和蜜蜂。
6.SN388 telemetry instrument is one of complete seismograph in the world.
SN388遥测仪是世界上较完善的地震仪器之一。
7.Smart antenna technology will be widely used in telemetry systems in the near future.
智能天线技术在未来无线遥测系统中有很广阔的应用前景。
8.In the field of wildlife conservation, telemetry is used to track animal movements.
在野生动物保护领域,遥测被用来追踪动物的移动。
9.The car's onboard computer collects telemetry data to improve performance.
汽车的车载计算机收集遥测数据以提高性能。
10.The spacecraft uses telemetry to send data back to Earth.
这艘航天器使用遥测将数据发送回地球。
11.Doctors can monitor patients' vital signs remotely through telemetry systems.
医生可以通过遥测系统远程监控病人的生命体征。
12.The satellite transmits telemetry information to help with weather forecasting.
卫星传输遥测信息以帮助天气预报。
作文
In today's technology-driven world, the concept of telemetry (遥测) has become increasingly important across various fields. At its core, telemetry refers to the process of collecting and transmitting data from remote or inaccessible locations to a receiving system for monitoring and analysis. This technology is vital in numerous applications, including space exploration, environmental monitoring, and healthcare. One of the most prominent examples of telemetry can be found in the field of space exploration. NASA’s missions to Mars, for instance, rely heavily on telemetry data to understand the conditions of the spacecraft and its surroundings. As these spacecraft travel millions of miles from Earth, real-time data regarding their speed, temperature, and structural integrity are transmitted back to mission control. Without telemetry, scientists would be unable to monitor the health of the spacecraft or make crucial decisions during the mission. This capability allows for timely interventions, which can be the difference between success and failure in such high-stakes environments.Similarly, telemetry plays a critical role in environmental monitoring. For example, weather stations utilize telemetry systems to collect data on temperature, humidity, wind speed, and other meteorological factors. This information is then sent to central databases where it can be analyzed to predict weather patterns and track climate change. The use of telemetry in this context not only enhances our understanding of atmospheric conditions but also aids in disaster preparedness by providing timely alerts about severe weather events.In the healthcare sector, telemetry is revolutionizing patient care. Hospitals employ telemetry systems to monitor patients' vital signs remotely. For instance, cardiac telemetry allows healthcare providers to track heart rates and rhythms of patients from a distance, ensuring that any irregularities are detected promptly. This continuous monitoring is particularly beneficial for patients in critical condition or those recovering from surgery. By utilizing telemetry, medical professionals can respond quickly to changes in a patient’s condition, ultimately improving outcomes and enhancing the quality of care.Moreover, the rise of the Internet of Things (IoT) has further expanded the applications of telemetry. Smart devices equipped with telemetry capabilities can send data about their usage and performance back to manufacturers for analysis. This feedback loop allows companies to improve their products and services continuously. For example, automotive manufacturers use telemetry to gather data from vehicles in real time, enabling them to enhance safety features and optimize performance based on actual driving conditions.Despite its many advantages, the use of telemetry also raises concerns regarding data privacy and security. As more devices become interconnected, the risk of unauthorized access to sensitive information increases. It is crucial for organizations to implement robust security measures to protect the data collected through telemetry systems. Ensuring that data is encrypted and that access is restricted to authorized personnel can help mitigate these risks.In conclusion, telemetry (遥测) is a powerful tool that has transformed various industries by enabling real-time data collection and analysis. From space exploration to healthcare, the ability to monitor and respond to conditions remotely has proven invaluable. As technology continues to evolve, the applications of telemetry will undoubtedly expand, presenting new opportunities and challenges that society must navigate. Understanding and harnessing the potential of telemetry will be essential as we move into an increasingly connected future.
在当今以技术驱动的世界中,telemetry(遥测)这一概念在各个领域变得越来越重要。telemetry的核心指的是从遥远或难以接触的位置收集和传输数据到接收系统进行监控和分析的过程。这项技术在许多应用中至关重要,包括太空探索、环境监测和医疗保健。telemetry的一个显著例子可以在太空探索领域找到。例如,NASA对火星的任务在很大程度上依赖于telemetry数据来了解宇宙飞船及其周围环境的条件。当这些宇宙飞船在距离地球数百万英里处旅行时,关于它们的速度、温度和结构完整性的实时数据被传回任务控制中心。如果没有telemetry,科学家将无法监测宇宙飞船的健康状况或在任务期间做出关键决策。这种能力允许及时干预,这可能是成功与失败之间的区别,在如此高风险的环境中尤其重要。同样,telemetry在环境监测中也发挥着关键作用。例如,气象站利用telemetry系统收集温度、湿度、风速和其他气象因素的数据。这些信息随后被发送到中央数据库进行分析,以预测天气模式和追踪气候变化。在这种情况下使用telemetry不仅增强了我们对大气条件的理解,还通过提供关于严重天气事件的及时警报来帮助灾害准备。在医疗保健行业,telemetry正在革新患者护理。医院采用telemetry系统远程监测患者的生命体征。例如,心脏遥测使医疗提供者能够远程跟踪患者的心率和节律,确保及时发现任何异常。这种持续监测对于危重病人或手术恢复中的患者特别有利。通过利用telemetry,医疗专业人员可以迅速对患者状况的变化作出反应,最终改善结果并提高护理质量。此外,物联网(IoT)的兴起进一步扩展了telemetry的应用。配备telemetry功能的智能设备可以将其使用情况和性能的数据发送回制造商进行分析。这种反馈循环使公司能够不断改进其产品和服务。例如,汽车制造商利用telemetry实时收集车辆的数据,使他们能够根据实际驾驶条件提升安全特性和优化性能。尽管有许多优点,telemetry的使用也引发了关于数据隐私和安全的担忧。随着更多设备互联互通,未经授权访问敏感信息的风险增加。组织必须实施强有力的安全措施来保护通过telemetry系统收集的数据。确保数据加密并限制仅授权人员访问,可以帮助减轻这些风险。总之,telemetry(遥测)是一种强大的工具,通过实现实时数据收集和分析,改变了多个行业。从太空探索到医疗保健,远程监测和响应条件的能力被证明是无价的。随着技术的不断发展,telemetry的应用无疑会扩展,带来社会必须应对的新机遇和挑战。理解和利用telemetry的潜力将在我们迈向一个日益互联的未来时至关重要。
