line synchronization

简明释义

行同步

英英释义

例句

1.To improve network performance, the IT team focused on achieving optimal line synchronization across all servers.

为了提高网络性能，IT团队专注于实现所有服务器的最佳线路同步。

2.The factory's machinery relies on line synchronization to operate efficiently during the production process.

工厂的机器依赖于线路同步在生产过程中高效运作。

3.We need to check the line synchronization settings before starting the live broadcast.

在开始直播之前，我们需要检查线路同步设置。

4.The telecommunications company implemented line synchronization to ensure all data packets are transmitted simultaneously.

电信公司实施了线路同步以确保所有数据包同时传输。

5.During the video conference, we experienced issues with line synchronization, causing delays in audio and video.

在视频会议期间，我们遇到了线路同步的问题，导致音频和视频延迟。

作文

In the world of telecommunications and data transfer, the concept of line synchronization plays a crucial role in ensuring that information is transmitted accurately and efficiently. Line synchronization refers to the process of aligning the timing of data signals with the clock frequency of the transmission medium. This synchronization is essential because it allows devices to communicate without errors, which can lead to data loss or corruption. For instance, when two devices are connected through a network, they must share a common timing reference to interpret the incoming data correctly. Without proper line synchronization, the receiving device may misinterpret the data packets, leading to significant issues in communication. Imagine a scenario where a video conference is taking place. If the audio and video signals are not synchronized, it can create a frustrating experience for the participants. This is why line synchronization is vital in applications that require real-time data transmission, such as video streaming, online gaming, and VoIP (Voice over Internet Protocol). There are various methods to achieve line synchronization. One common technique is the use of clock recovery circuits, which extract timing information from the incoming data stream. These circuits help maintain the correct timing even if there are variations in the transmission medium. Another method involves the use of synchronization patterns or preambles, which are specific sequences of bits sent at the beginning of a transmission to help the receiver establish the correct timing. Furthermore, line synchronization is not only limited to digital communications; it also plays an important role in analog systems. For example, in television broadcasting, the synchronization of video and audio signals is critical to ensure that viewers receive a coherent and enjoyable viewing experience. Any lag or mismatch between these signals can result in a poor quality broadcast, which is unacceptable in today’s media landscape. As technology continues to evolve, the importance of line synchronization will only increase. With the advent of 5G networks and the Internet of Things (IoT), the demand for reliable and efficient data transmission is higher than ever. Devices will need to communicate seamlessly with one another, and this requires advanced synchronization techniques to handle the increased complexity of interactions. In conclusion, line synchronization is a fundamental concept in telecommunications that ensures accurate and efficient data transmission. Its significance spans across various applications, from personal communications to large-scale broadcasting. As we move towards an increasingly interconnected world, mastering the principles of line synchronization will be essential for engineers and technicians working in the field. Understanding how to implement and troubleshoot synchronization issues will be key to maintaining the integrity of our communication systems and ensuring a smooth flow of information.

在电信和数据传输的世界中，线同步的概念在确保信息准确高效传输方面发挥着至关重要的作用。线同步是指将数据信号的时序与传输介质的时钟频率对齐的过程。这种同步至关重要，因为它允许设备之间无误地通信，否则可能导致数据丢失或损坏。例如，当两个设备通过网络连接时，它们必须共享一个共同的时序参考，以正确解释传入的数据。 如果没有适当的线同步，接收设备可能会误解数据包，从而导致通信中的重大问题。想象一下一个视频会议的场景。如果音频和视频信号不同步，会给参与者带来令人沮丧的体验。这就是为什么在需要实时数据传输的应用中，如视频流、在线游戏和VoIP（互联网语音协议），线同步至关重要。 实现线同步的方法有多种。一种常见的技术是使用时钟恢复电路，这些电路从传入的数据流中提取时序信息。这些电路帮助保持正确的时序，即使在传输介质中存在变化。另一种方法涉及使用同步模式或前导码，这些是在传输开始时发送的特定位序列，以帮助接收方建立正确的时序。 此外，线同步不仅限于数字通信；它在模拟系统中也起着重要作用。例如，在电视广播中，视频和音频信号的同步对于确保观众获得连贯且愉快的观看体验至关重要。任何延迟或不匹配都可能导致质量差的广播，这在当今媒体环境中是不可接受的。 随着技术的不断发展，线同步的重要性只会增加。随着5G网络和物联网（IoT）的出现，对可靠高效的数据传输的需求比以往任何时候都要高。设备需要无缝地相互通信，这需要先进的同步技术来处理交互的复杂性。 总之，线同步是电信中的一个基本概念，确保准确和高效的数据传输。它的重要性跨越了各种应用，从个人通信到大规模广播。随着我们迈向一个日益互联的世界，掌握线同步的原理将对在该领域工作的工程师和技术人员至关重要。了解如何实施和排除同步问题将是维护我们通信系统完整性并确保信息流畅传递的关键。