line synchronization
简明释义
行同步
英英释义
例句
1.The technician explained that line synchronization 线路同步 is crucial for maintaining data integrity in telecommunications.
技术员解释说,线路同步对于维护电信中的数据完整性至关重要。
2.The network engineer ensured that the line synchronization 线路同步 was stable before deploying the new router.
网络工程师在部署新路由器之前确保线路同步是稳定的。
3.Without proper line synchronization 线路同步, the audio and video streams can become desynchronized.
如果没有适当的线路同步,音频和视频流可能会变得不同步。
4.During the video conference, we experienced issues due to a lack of line synchronization 线路同步.
在视频会议期间,由于缺乏线路同步,我们遇到了问题。
5.To improve performance, the team focused on achieving optimal line synchronization 线路同步 across all devices.
为了提高性能,团队专注于实现所有设备之间的最佳线路同步。
作文
In the realm of telecommunications and data transmission, the concept of line synchronization plays a crucial role in ensuring that information is accurately and efficiently transmitted between devices. Line synchronization refers to the process of aligning the timing of data signals over a communication line, allowing for seamless communication without loss or distortion of information. This synchronization is essential for both digital and analog systems, as it helps maintain the integrity of the data being sent and received.One of the primary reasons why line synchronization is necessary is due to the nature of how data is transmitted. When data is sent over a line, it is often broken down into smaller packets. Each packet must arrive at its destination in the correct order and at the right time to be properly reassembled. Without line synchronization, packets may arrive out of order or at inconsistent intervals, leading to confusion and potential data loss.There are various methods used to achieve line synchronization. One common approach is to use a clock signal that helps to coordinate the timing of data transmission. This clock signal acts as a reference point, ensuring that both the sender and receiver are operating on the same timing schedule. Another method involves the use of specific synchronization patterns within the data stream itself, which can help devices recognize when to expect incoming data.The importance of line synchronization extends beyond just maintaining the order of data packets. It also impacts the overall performance of a communication system. For instance, in high-speed networks, where large volumes of data are transmitted simultaneously, effective line synchronization can significantly reduce latency and improve throughput. This is particularly vital in applications such as video streaming, online gaming, and real-time communications, where any delay can result in a poor user experience.Moreover, the implementation of line synchronization is not limited to wired connections. In wireless communications, synchronization becomes even more complex due to factors such as signal interference and varying transmission distances. Advanced techniques such as frequency hopping and time division multiple access (TDMA) are employed to ensure that devices remain synchronized even in dynamic environments.As technology continues to evolve, the methods and importance of line synchronization will likely adapt as well. With the rise of the Internet of Things (IoT) and the increasing number of connected devices, maintaining synchronization across diverse systems will become even more critical. Future advancements may lead to more sophisticated algorithms and protocols designed to enhance line synchronization, ensuring that data remains accurate and reliable in an increasingly interconnected world.In conclusion, line synchronization is a fundamental aspect of modern communication systems. It ensures that data is transmitted accurately and efficiently, minimizing the risk of errors and enhancing overall system performance. As we move forward into a more technologically advanced future, the significance of line synchronization will only continue to grow, highlighting the need for ongoing research and development in this vital area of telecommunications.
在电信和数据传输的领域中,行同步的概念在确保信息在设备之间准确和高效地传输方面发挥着至关重要的作用。行同步指的是在通信线路上对数据信号的时间进行对齐的过程,使得通信无缝进行,不会丢失或扭曲信息。这种同步对于数字和模拟系统都是必不可少的,因为它有助于保持发送和接收的数据的完整性。行同步之所以必要,主要是由于数据传输的性质。当数据通过线路发送时,它通常被分解成较小的数据包。每个数据包必须以正确的顺序和适当的时间到达其目的地,以便能够正确地重新组装。如果没有行同步,数据包可能会乱序到达或以不一致的间隔到达,导致混淆和潜在的数据丢失。实现行同步的方法有多种。一种常见的方法是使用时钟信号来帮助协调数据传输的时机。这个时钟信号作为参考点,确保发送方和接收方在同一时间调度下运行。另一种方法是在数据流中使用特定的同步模式,这可以帮助设备识别何时预期接收数据。行同步的重要性不仅限于维护数据包的顺序。它还影响通信系统的整体性能。例如,在高速网络中,大量数据同时传输时,有效的行同步可以显著减少延迟,提高吞吐量。这在视频流、在线游戏和实时通信等应用中尤为重要,因为任何延迟都可能导致用户体验不佳。此外,行同步的实现不仅限于有线连接。在无线通信中,由于信号干扰和变化的传输距离,同步变得更加复杂。先进的技术,如频率跳变和时分多址(TDMA),被用来确保设备即使在动态环境中也能保持同步。随着技术的不断发展,行同步的方法和重要性也可能会随之调整。随着物联网(IoT)的崛起和连接设备数量的增加,在各种系统之间保持同步将变得更加关键。未来的进步可能会导致更复杂的算法和协议的出现,旨在增强行同步,确保在日益互联的世界中数据保持准确和可靠。总之,行同步是现代通信系统的一个基本方面。它确保数据被准确和高效地传输,最小化错误风险并增强整体系统性能。随着我们走向一个技术更加先进的未来,行同步的重要性只会继续增长,突显出在这一重要电信领域进行持续研究和发展的必要性。
