telemetering reception

简明释义

无线电遥测资料的接收

英英释义

例句

1.The marine biologists relied on telemetering reception to monitor the movements of tagged fish.

海洋生物学家依赖遥测接收监测标记鱼类的移动。

2.During the rocket launch, telemetering reception allowed ground control to track vital statistics.

在火箭发射期间，遥测接收使地面控制能够跟踪重要统计数据。

3.The research team used telemetering reception to gather environmental data from remote sensors.

研究小组使用遥测接收从远程传感器收集环境数据。

4.The engineers monitored the satellite's performance through telemetering reception.

工程师通过遥测接收监测卫星的性能。

5.In aviation, pilots rely on telemetering reception to receive real-time data from the aircraft systems.

在航空领域，飞行员依靠遥测接收从飞机系统接收实时数据。

作文

In today's rapidly advancing technological landscape, the term telemetering reception has gained significant importance, particularly in fields such as telecommunications, remote sensing, and data acquisition. To understand this concept better, we must first break down its components: 'telemetry' and 'reception.' Telemetry refers to the process of collecting and transmitting data from a remote source to a receiving station, while reception denotes the act of receiving this transmitted data. Therefore, telemetering reception can be defined as the process of receiving data that has been collected remotely, often for monitoring or control purposes.One of the most common applications of telemetering reception is found in the field of environmental monitoring. For instance, weather stations equipped with various sensors collect data on temperature, humidity, wind speed, and precipitation. This data is then transmitted to a central location where it can be analyzed and used for forecasting weather patterns. The telemetering reception of this data allows meteorologists to provide timely and accurate weather reports, which are crucial for public safety and planning.Another significant application of telemetering reception is in the realm of healthcare. Medical devices such as heart rate monitors and glucose meters often utilize telemetry to send patient data to healthcare providers in real-time. This capability enables doctors to monitor patients remotely, allowing for quicker responses in emergencies and better overall patient management. The telemetering reception of vital health information ensures that medical professionals have access to critical data without needing to be physically present with the patient.Moreover, the energy sector also benefits greatly from telemetering reception. Smart meters installed in homes and businesses collect data on electricity usage and transmit it back to utility companies. This data helps utilities manage energy distribution more efficiently and provides consumers with insights into their energy consumption patterns. By implementing telemetering reception, energy providers can detect outages more quickly and respond to them effectively, ultimately improving service reliability.However, the implementation of telemetering reception is not without challenges. Data security and privacy concerns are paramount, especially when sensitive information is being transmitted. Ensuring that the data collected is protected from unauthorized access is crucial for maintaining user trust. Furthermore, the reliability of data transmission is another concern. In remote areas where signal strength may be weak, data loss can occur, leading to gaps in monitoring and analysis. Thus, developing robust systems for telemetering reception that address these issues is essential for the continued advancement of this technology.In conclusion, telemetering reception plays a vital role in various sectors, including environmental monitoring, healthcare, and energy management. Its ability to facilitate real-time data collection and transmission enhances our understanding and management of complex systems. As technology continues to evolve, the importance of telemetering reception will only grow, paving the way for smarter, more efficient solutions across multiple domains. Addressing the associated challenges will be key to unlocking the full potential of this powerful tool in our increasingly interconnected world.

在当今快速发展的技术环境中，术语遥测接收变得越来越重要，特别是在电信、遥感和数据采集等领域。为了更好地理解这一概念，我们首先需要分解其组成部分：“遥测”和“接收”。遥测是指从远程源收集和传输数据的过程，而接收则表示接收这些传输数据的行为。因此，遥测接收可以定义为接收已从远程收集的数据的过程，通常用于监控或控制目的。遥测接收的一个常见应用是在环境监测领域。例如，配备各种传感器的气象站收集温度、湿度、风速和降水量的数据。这些数据随后被传输到中央位置，在那里可以进行分析并用于天气模式的预测。遥测接收这一数据的过程使气象学家能够提供及时准确的天气报告，这对公共安全和规划至关重要。遥测接收的另一个重要应用是在医疗保健领域。心率监测仪和血糖仪等医疗设备通常利用遥测技术实时发送患者数据给医疗提供者。这一能力使医生能够远程监控患者，从而在紧急情况下更快做出反应，并更好地进行患者管理。遥测接收关键健康信息的过程确保医疗专业人员在不需要与患者亲自接触的情况下获得重要数据。此外，能源部门也极大受益于遥测接收。安装在家庭和企业中的智能电表收集电力使用数据并将其传回公用事业公司。这些数据帮助公用事业公司更有效地管理能源分配，并为消费者提供对其能源消费模式的洞察。通过实施遥测接收，能源供应商可以更快地检测故障并有效响应，从而最终提高服务可靠性。然而，遥测接收的实施并非没有挑战。数据安全和隐私问题至关重要，尤其是在传输敏感信息时。确保收集的数据受到保护，防止未经授权的访问，对于维护用户信任至关重要。此外，数据传输的可靠性也是一个关注点。在信号强度可能较弱的偏远地区，可能会发生数据丢失，导致监测和分析中的空白。因此，开发解决这些问题的遥测接收系统对于该技术的持续进步至关重要。总之，遥测接收在环境监测、医疗保健和能源管理等多个领域发挥着重要作用。它促进了实时数据收集和传输，增强了我们对复杂系统的理解和管理。随着技术的不断发展，遥测接收的重要性只会增加，为多个领域提供更智能、更高效的解决方案。解决相关挑战将是释放这一强大工具在我们日益互联的世界中全部潜力的关键。