time-division multiplex communication

简明释义

时分多路通信

英英释义

例句

1.In satellite communications, time-division multiplex communication 时分复用通信 helps to maximize the use of available bandwidth.

在卫星通信中，时分复用通信 time-division multiplex communication 有助于最大化可用带宽的使用。

2.The time-division multiplex communication 时分复用通信 technique is essential for managing network traffic in cellular systems.

在蜂窝系统中，时分复用通信 time-division multiplex communication 技术对于管理网络流量至关重要。

3.In modern telecommunication systems, time-division multiplex communication 时分复用通信 is widely used to efficiently share bandwidth among multiple users.

在现代电信系统中，时分复用通信 time-division multiplex communication 被广泛用于高效地共享多个用户之间的带宽。

4.Engineers often choose time-division multiplex communication 时分复用通信 for digital signal processing due to its efficiency in handling multiple signals.

工程师们通常选择时分复用通信 time-division multiplex communication 进行数字信号处理，因为它在处理多个信号时非常高效。

5.The implementation of time-division multiplex communication 时分复用通信 allows for the simultaneous transmission of voice and data over the same channel.

实施时分复用通信 time-division multiplex communication 允许在同一信道上同时传输语音和数据。

作文

In the modern era of communication technology, efficient data transmission is crucial for various applications, including telecommunications, broadcasting, and internet services. One of the most significant techniques employed to optimize bandwidth usage is known as time-division multiplex communication. This method allows multiple signals to share the same transmission medium by dividing the time available on that medium into distinct time slots. Each signal is assigned a specific time slot during which it can transmit its data, ensuring that the signals do not interfere with each other. To understand how time-division multiplex communication works, it is essential to grasp the concept of multiplexing. Multiplexing is a technique used to combine multiple signals into a single transmission channel, thus maximizing the efficiency of the communication system. In time-division multiplex communication, the key idea is to allocate different time intervals for each signal. For example, in a digital communication system, time slots can be assigned in such a way that each user or data stream has a designated period to send its information. This systematic approach minimizes the risk of overlap and ensures that data is transmitted accurately and efficiently.The advantages of time-division multiplex communication are numerous. Firstly, it enhances the utilization of available bandwidth, allowing more users to communicate simultaneously without requiring additional physical channels. This is particularly beneficial in scenarios where the demand for communication services is high, such as in mobile networks or satellite communications. Secondly, time-division multiplex communication simplifies the design of communication systems, as it reduces the complexity associated with managing multiple signals. By using a single channel and dividing it into time slots, engineers can streamline the process of signal transmission and reception.Moreover, time-division multiplex communication is widely used in various applications, including digital telephony, video conferencing, and data networking. For instance, in a digital telephone network, multiple calls can be transmitted over the same line by allocating specific time slots for each call. This allows for efficient use of the existing infrastructure while providing high-quality communication. Similarly, in video conferencing applications, multiple participants can connect simultaneously, with their audio and video streams being transmitted in separate time slots, ensuring smooth and uninterrupted communication.However, despite its many advantages, time-division multiplex communication does have some limitations. One of the primary challenges is the synchronization of time slots among different signals. If the timing is not accurately maintained, it can lead to data loss or corruption. Additionally, the fixed allocation of time slots may result in inefficiencies if some users do not utilize their allotted time, leading to wasted bandwidth. Therefore, careful management and synchronization are essential to ensure the effectiveness of this communication technique.In conclusion, time-division multiplex communication is a vital technology that plays a significant role in modern communication systems. By allowing multiple signals to share the same transmission medium through the allocation of time slots, it maximizes bandwidth efficiency and simplifies system design. While there are challenges associated with synchronization and resource allocation, the benefits of this technique make it an indispensable tool in the ever-evolving landscape of communication technology. As we continue to advance in this field, understanding and mastering time-division multiplex communication will be essential for both engineers and users alike.

在现代通信技术时代，高效的数据传输对电信、广播和互联网服务等各种应用至关重要。为了优化带宽的使用，采用了一种重要的技术，称为时分复用通信。这种方法允许多个信号共享同一传输介质，通过将可用时间划分为不同的时间槽来实现。每个信号被分配一个特定的时间槽，在该时间槽内可以传输其数据，从而确保信号之间不会相互干扰。要理解时分复用通信的工作原理，首先需要掌握复用的概念。复用是一种将多个信号组合成单一传输通道的技术，从而最大化通信系统的效率。在时分复用通信中，关键思想是为每个信号分配不同的时间间隔。例如，在数字通信系统中，可以以某种方式分配时间槽，使每个用户或数据流有指定的时间段来发送其信息。这种系统化的方法最小化了重叠的风险，并确保数据准确高效地传输。时分复用通信的优点有很多。首先，它提高了可用带宽的利用率，使更多用户能够同时通信，而无需额外的物理通道。这在通信服务需求量大的情况下尤其有益，例如在移动网络或卫星通信中。其次，时分复用通信简化了通信系统的设计，因为它减少了管理多个信号所需的复杂性。通过使用单个通道并将其划分为时间槽，工程师可以简化信号传输和接收的过程。此外，时分复用通信被广泛应用于各种场景，包括数字电话、视频会议和数据网络。例如，在数字电话网络中，可以通过为每个通话分配特定的时间槽来在同一线路上传输多个通话。这使得现有基础设施的有效利用成为可能，同时提供高质量的通信。同样，在视频会议应用中，多个参与者可以同时连接，他们的音频和视频流在不同的时间槽中传输，确保顺畅和不间断的沟通。然而，尽管有许多优点，时分复用通信也存在一些局限性。主要挑战之一是不同信号之间时间槽的同步。如果时序没有准确保持，可能导致数据丢失或损坏。此外，固定的时间槽分配可能导致低效，因为一些用户可能不会利用其分配的时间，从而造成带宽浪费。因此，仔细的管理和同步对于确保这种通信技术的有效性至关重要。总之，时分复用通信是一项重要技术，在现代通信系统中发挥着重要作用。通过允许多个信号通过时间槽的分配共享同一传输介质，它最大化了带宽效率并简化了系统设计。尽管与同步和资源分配相关的挑战仍然存在，但这一技术的好处使其在不断发展的通信技术领域中成为不可或缺的工具。随着我们在这一领域的不断进步，理解和掌握时分复用通信对工程师和用户来说都至关重要。