telemetering

简明释义

[tɪˈlemɪtərɪŋ][ˈtelimiːtərɪŋ]

n. 遥测;沿无线电遥测线路传送信息

v. 用遥测装置传送(telemeter 的 ing 形式)

英英释义

Telemetering refers to the process of measuring and transmitting data over a distance for monitoring and control purposes.

遥测是指在远距离内测量和传输数据以便于监控和控制的过程。

单词用法

telemetry system

遥测系统

data telemetering

数据遥测

real-time telemetering

实时遥测

implement telemetering

实施遥测

perform telemetering

执行遥测

telemetering technology

遥测技术

同义词

remote sensing

遥感

Remote sensing technologies are widely used in environmental monitoring.

遥感技术广泛应用于环境监测。

data transmission

数据传输

Data transmission is crucial for telemetering systems to function effectively.

数据传输对遥测系统的有效运作至关重要。

monitoring

监测

Monitoring of equipment performance can be enhanced through telemetering.

通过遥测可以增强设备性能的监测。

反义词

local monitoring

本地监控

Local monitoring is often preferred in environments where real-time data transmission is not possible.

在实时数据传输不可行的环境中,本地监控通常更受欢迎。

manual measurement

手动测量

Manual measurement requires physical presence and can be time-consuming.

手动测量需要物理到场,且可能耗时较长。

例句

1.It may connect with interface of the transformer substation synthesis automatic equipment, and it has more function: the data communicating, telemetering, remote control.

可与变电站综合自动化设备接口,具备数据通讯,实现遥测、遥控等功能。

2.Telemetering system has three main characteristics compared with control system: the uncertainty of information resource under measured;

与控制系统相比,遥测系统具有三大特点:测量信息源的不确定性;

3.Software reuse can lower the price of software development in the hydrological telemetering system and it can promote the standardization and reliability of software development.

软件复用是减少水文遥测系统软件开发投入,提高软件的标准化与可靠性的有效途径。

4.At the last of the paper, the optimized method of the PLL signal real-time processing in the Tracking, Telemetering and Control System is presented.

最后提出软件锁相环在测控系统中实现信号实时处理的优化方法。

5.The principle and design of the telemetering net system were discussed in the paper.

讨论了遥测网络系统的原理与设计;

6.It consists of 9 telemetering stations and 1 central station.

该系统设9个遥测站和1个中心站。

7.This paper discusses some questions about the temperature humidity telemetering system. The application of PLC in this system is expounded.

讨论了以PLC为核心的温、湿度遥测系统设计的有关问题,介绍了PLC在系统中的应用。

8.The satellite employs telemetering to send back crucial data about Earth's atmosphere.

卫星利用遥测发送关于地球大气的重要数据。

9.The telemetering technology allows for real-time tracking of environmental conditions.

遥测技术允许实时跟踪环境条件。

10.With telemetering, we can collect data from our sensors located in remote areas.

通过遥测,我们可以收集位于偏远地区的传感器数据。

11.Our new water management system uses telemetering to ensure efficient usage of resources.

我们的新水管理系统使用遥测来确保资源的有效使用。

12.The engineers implemented a new telemetering system to monitor the performance of the wind turbines remotely.

工程师们实施了一个新的遥测系统,以远程监控风力涡轮机的性能。

作文

In the modern world, technology plays a crucial role in various fields, including healthcare, environmental monitoring, and engineering. One of the key advancements in this domain is the concept of telemetering (遥测), which refers to the process of collecting data from remote or inaccessible locations and transmitting it to receiving equipment for monitoring and analysis. This technique has revolutionized how we gather information, allowing for real-time data collection and improved decision-making processes.Telemetering systems can be found in numerous applications. For instance, in healthcare, telemetering (遥测) is used to monitor patients' vital signs remotely. Wearable devices equipped with sensors can track heart rates, blood pressure, and other critical health metrics, sending this information to healthcare providers. This capability not only enhances patient care but also allows for timely interventions when necessary.In environmental science, telemetering (遥测) plays a vital role in monitoring climate change and natural resources. Sensors placed in remote locations can collect data on temperature, humidity, and atmospheric conditions. This information is transmitted back to researchers, enabling them to analyze trends and make informed decisions regarding conservation efforts and resource management.Moreover, in the field of engineering, telemetering (遥测) is essential for monitoring the structural integrity of bridges, dams, and other critical infrastructure. By installing sensors that measure stress, strain, and vibrations, engineers can receive real-time data about the condition of these structures. This proactive approach helps identify potential issues before they escalate into significant problems, ensuring public safety and reducing maintenance costs.The advantages of telemetering (遥测) are numerous. It allows for continuous monitoring, which is particularly important in scenarios where immediate action may be required. Additionally, the ability to collect data from remote locations reduces the need for physical inspections, saving time and resources. Furthermore, the data collected can be analyzed to identify patterns and trends, leading to better forecasting and planning.However, despite its many benefits, telemetering (遥测) also presents challenges. Data security is a significant concern, as the transmission of sensitive information can be vulnerable to cyber-attacks. Ensuring that data is encrypted and securely transmitted is crucial to maintaining the integrity of the information. Additionally, the reliance on technology means that any system failures or malfunctions can lead to gaps in data collection, potentially resulting in critical oversights.In conclusion, telemetering (遥测) is a powerful tool that has transformed data collection and monitoring across various fields. Its applications in healthcare, environmental science, and engineering highlight its versatility and importance. As technology continues to evolve, the potential for telemetering (遥测) to enhance our understanding of complex systems and improve decision-making will only grow. However, it is essential to address the challenges associated with data security and system reliability to fully harness the benefits of this innovative technology.