multiplexed microwave data communication

简明释义

多数微波数据通信

英英释义

例句

1.The new satellite system utilizes multiplexed microwave data communication to transmit large volumes of information efficiently.

新卫星系统利用复用微波数据通信高效地传输大量信息。

2.In urban settings, multiplexed microwave data communication can help manage traffic signals more effectively.

在城市环境中，复用微波数据通信可以更有效地管理交通信号。

3.Telecom companies are investing in multiplexed microwave data communication to enhance their network capacity.

电信公司正在投资于复用微波数据通信以增强其网络容量。

4.The military relies on multiplexed microwave data communication to ensure secure and fast communications.

军方依赖复用微波数据通信确保安全和快速的通讯。

5.Engineers are exploring multiplexed microwave data communication for real-time data transfer in remote areas.

工程师们正在探索在偏远地区进行实时数据传输的复用微波数据通信。

作文

In the modern world, communication technologies have evolved significantly, enabling faster and more efficient data transmission. One of the most innovative methods of data communication is through what is known as multiplexed microwave data communication. This technique allows multiple signals to be transmitted simultaneously over a single communication channel, maximizing the use of available bandwidth and improving overall system efficiency.The term multiplexed microwave data communication refers to the process of combining several data streams into one signal for transmission over microwave frequencies. Microwaves are electromagnetic waves with frequencies ranging from 1 GHz to 300 GHz, which can carry large amounts of data over long distances. By multiplexing these signals, it becomes possible to send various types of information—such as voice, video, and data—over the same medium without interference.One of the primary advantages of multiplexed microwave data communication is its ability to support high data rates. In an era where data consumption is constantly increasing, traditional communication methods often struggle to keep up with demand. However, by utilizing multiplexing techniques, service providers can enhance their capacity to deliver services to users without needing to lay additional physical infrastructure.Moreover, multiplexed microwave data communication is particularly beneficial in remote or rural areas where laying cables may be impractical or cost-prohibitive. The use of microwave technology allows for wireless communication over long distances, making it an ideal solution for connecting underserved populations. This capability promotes digital inclusion and ensures that more individuals have access to important resources such as education and healthcare.Additionally, the implementation of multiplexed microwave data communication systems can lead to significant cost savings. By consolidating multiple data streams into a single channel, companies can reduce the number of transmitters and receivers needed, thereby lowering equipment costs and maintenance expenses. This efficiency not only benefits service providers but also results in lower prices for consumers, making technology more accessible.However, like any technology, multiplexed microwave data communication does come with its challenges. For instance, the effectiveness of microwave communication can be affected by environmental factors such as rain, fog, and physical obstructions. These issues may lead to signal degradation, which can impact the quality of data transmission. Therefore, it is crucial for engineers and technicians to devise solutions to mitigate these challenges to ensure reliable communication.In conclusion, multiplexed microwave data communication represents a significant advancement in the field of telecommunications. By allowing multiple data streams to share the same channel, this technology enhances data transmission efficiency, supports high data rates, and provides solutions for remote connectivity. As we continue to rely on digital communication in our daily lives, understanding and embracing innovations like multiplexed microwave data communication will be essential for fostering a more connected and informed society.

在现代世界中，通信技术已经显著发展，使得数据传输更快、更高效。其中一种最具创新性的数据通信方法是所谓的复用微波数据通信。这种技术允许多个信号同时通过单一通信通道进行传输，从而最大限度地利用可用带宽，提高整体系统效率。术语复用微波数据通信指的是将多个数据流组合成一个信号以便在微波频率上传输的过程。微波是频率范围从1 GHz到300 GHz的电磁波，可以在长距离内承载大量数据。通过复用这些信号，可以在同一介质上发送各种类型的信息，如语音、视频和数据，而不会相互干扰。复用微波数据通信的主要优点之一是其支持高数据速率的能力。在数据消费不断增加的时代，传统通信方法往往难以跟上需求。然而，利用复用技术，服务提供商可以增强向用户提供服务的能力，而无需铺设额外的物理基础设施。此外，复用微波数据通信在偏远或农村地区尤其有利，因为铺设电缆可能不切实际或成本过高。微波技术的使用允许在长距离内进行无线通信，使其成为连接服务不足人群的理想解决方案。这种能力促进了数字包容性，确保更多个人能够获得教育和医疗等重要资源。此外，实施复用微波数据通信系统可以带来显著的成本节约。通过将多个数据流整合到一个通道中，公司可以减少所需的发射器和接收器数量，从而降低设备成本和维护费用。这种效率不仅使服务提供商受益，还使消费者的价格降低，使技术更易于获得。然而，像任何技术一样，复用微波数据通信也面临着挑战。例如，微波通信的有效性可能会受到雨、雾和物理障碍等环境因素的影响。这些问题可能导致信号衰减，从而影响数据传输的质量。因此，工程师和技术人员必须制定解决方案，以减轻这些挑战，以确保可靠的通信。总之，复用微波数据通信代表了电信领域的一项重大进展。通过允许多个数据流共享同一通道，这项技术提高了数据传输效率，支持了高数据速率，并为远程连接提供了解决方案。随着我们继续依赖数字通信于日常生活，理解和接受像复用微波数据通信这样的创新对于促进一个更加互联和信息丰富的社会至关重要。