measurement transmission

简明释义

测量结果的传送;

英英释义

例句

1.The new sensor technology improves the speed of measurement transmission 测量传输 in industrial applications.

新传感器技术提高了工业应用中<测量传输>的速度。

2.We need to optimize our measurement transmission 测量传输 protocols to reduce latency.

我们需要优化我们的<测量传输>协议以减少延迟。

3.In remote monitoring systems, efficient measurement transmission 测量传输 is crucial for timely data analysis.

在远程监测系统中，高效的<测量传输>对于及时的数据分析至关重要。

4.The IoT devices rely on reliable measurement transmission 测量传输 to ensure accurate readings.

物联网设备依赖可靠的<测量传输>来确保读数准确。

5.The research focused on enhancing the measurement transmission 测量传输 capabilities of wireless networks.

该研究专注于增强无线网络的<测量传输>能力。

作文

In today's technologically advanced world, the concept of measurement transmission (测量传输) plays a crucial role in various fields such as telecommunications, engineering, and environmental monitoring. The ability to accurately measure and transmit data is fundamental for making informed decisions, optimizing processes, and ensuring safety in numerous applications. This essay will explore the significance of measurement transmission (测量传输), its applications, and the challenges associated with it.Firstly, measurement transmission (测量传输) refers to the process of collecting data from sensors or measuring devices and transmitting that data to a central system or location for analysis. This process is vital in industries like telecommunications, where signals must be measured and transmitted over vast distances. For instance, in mobile networks, the strength and quality of signals are continuously measured and transmitted to ensure optimal performance and connectivity for users. Without effective measurement transmission (测量传输), communication systems would face significant challenges, leading to poor service and customer dissatisfaction.Moreover, measurement transmission (测量传输) is essential in the field of environmental monitoring. Sensors deployed in various ecosystems can measure parameters such as temperature, humidity, and air quality. These measurements are then transmitted to centralized databases where scientists and researchers can analyze the data to track changes in the environment. This information is critical for understanding climate change, predicting natural disasters, and implementing conservation strategies. The accuracy and reliability of measurement transmission (测量传输) directly impact the effectiveness of these environmental initiatives.In addition to telecommunications and environmental monitoring, measurement transmission (测量传输) is also significant in industrial automation. In manufacturing processes, machines equipped with sensors collect data on production rates, machine performance, and product quality. This data is transmitted to control systems that monitor and optimize the production line. By utilizing real-time measurement transmission (测量传输), manufacturers can identify inefficiencies, reduce waste, and improve overall productivity. The integration of Internet of Things (IoT) technologies further enhances the capabilities of measurement transmission (测量传输), allowing for smarter and more responsive manufacturing environments.However, the process of measurement transmission (测量传输) is not without challenges. One of the primary concerns is data security. As data is transmitted over networks, it becomes vulnerable to interception and unauthorized access. Ensuring the integrity and confidentiality of transmitted data is paramount, especially in sensitive applications such as healthcare and finance. Additionally, the reliability of measurement transmission (测量传输) can be affected by factors such as network congestion, signal interference, and hardware malfunctions. Engineers and technicians must continuously work to improve the robustness of measurement systems to mitigate these risks.In conclusion, measurement transmission (测量传输) is a fundamental aspect of modern technology that enables effective data collection and analysis across various domains. Its applications in telecommunications, environmental monitoring, and industrial automation highlight its importance in enhancing efficiency and decision-making processes. However, the challenges associated with data security and reliability must be addressed to fully leverage the potential of measurement transmission (测量传输). As technology continues to evolve, the methods and tools used for measurement transmission (测量传输) will undoubtedly advance, paving the way for even more innovative solutions in the future.

在当今科技先进的世界中，测量传输（measurement transmission）这一概念在电信、工程和环境监测等多个领域中发挥着至关重要的作用。准确测量和传输数据的能力是做出明智决策、优化流程和确保安全的基础。这篇文章将探讨测量传输（measurement transmission）的重要性、应用以及相关挑战。首先，测量传输（measurement transmission）指的是从传感器或测量设备收集数据并将其传输到中央系统或位置进行分析的过程。这个过程在电信等行业中至关重要，因为信号必须在广泛的距离内进行测量和传输。例如，在移动网络中，信号的强度和质量会不断被测量并传输，以确保用户的最佳性能和连接。如果没有有效的测量传输（measurement transmission），通信系统将面临重大挑战，导致服务质量差和客户不满。此外，测量传输（measurement transmission）在环境监测领域也是必不可少的。部署在各种生态系统中的传感器可以测量温度、湿度和空气质量等参数。这些测量结果随后被传输到集中数据库，科学家和研究人员可以分析数据以跟踪环境变化。这些信息对于理解气候变化、预测自然灾害和实施保护策略至关重要。测量传输（measurement transmission）的准确性和可靠性直接影响这些环境倡议的有效性。除了电信和环境监测外，测量传输（measurement transmission）在工业自动化中也具有重要意义。在制造过程中，配备传感器的机器收集有关生产率、机器性能和产品质量的数据。这些数据被传输到监控系统，以监测和优化生产线。通过利用实时的测量传输（measurement transmission），制造商可以识别低效，减少浪费，提高整体生产力。物联网（IoT）技术的整合进一步增强了测量传输（measurement transmission）的能力，使制造环境更加智能和响应灵敏。然而，测量传输（measurement transmission）过程并非没有挑战。主要的担忧之一是数据安全。由于数据通过网络传输，它变得容易受到拦截和未经授权的访问。确保传输数据的完整性和机密性至关重要，特别是在医疗和金融等敏感应用中。此外，测量传输（measurement transmission）的可靠性可能会受到网络拥塞、信号干扰和硬件故障等因素的影响。工程师和技术人员必须不断努力提高测量系统的稳健性，以减轻这些风险。总之，测量传输（measurement transmission）是现代技术的一个基本方面，使各个领域能够有效地收集和分析数据。它在电信、环境监测和工业自动化中的应用突显了其在提高效率和决策过程中的重要性。然而，必须解决与数据安全和可靠性相关的挑战，以充分利用测量传输（measurement transmission）的潜力。随着技术的不断发展，用于测量传输（measurement transmission）的方法和工具无疑会不断进步，为未来更具创新性的解决方案铺平道路。