delay distortion
简明释义
延时失真
英英释义
例句
1.In digital communication systems, delay distortion refers to the variation in signal timing that can lead to errors in data interpretation.
在数字通信系统中,延迟失真指的是信号时序的变化,这可能导致数据解释中的错误。
2.The audio system experienced delay distortion, causing echoes and unclear sound quality during playback.
音频系统经历了延迟失真,导致播放时出现回声和音质不清晰。
3.To minimize delay distortion, we implemented advanced algorithms in our signal processing software.
为了最小化延迟失真,我们在信号处理软件中实施了先进的算法。
4.Engineers must account for delay distortion when designing high-speed networks to ensure data integrity.
工程师在设计高速网络时必须考虑到延迟失真以确保数据完整性。
5.During the video conference, participants noticed delay distortion that affected the flow of conversation.
在视频会议期间,与会者注意到延迟失真影响了对话的流畅性。
作文
In the realm of communication technology, the term delay distortion refers to the phenomenon where signals are altered as they travel through a medium, leading to variations in the time it takes for different parts of the signal to arrive at their destination. This issue is particularly significant in digital communications, where the integrity of the transmitted data is crucial. When we discuss delay distortion (延迟失真), we are often concerned with how it affects the quality of audio and video transmissions, impacting everything from phone calls to streaming services.One of the primary causes of delay distortion is the difference in propagation speeds of various frequencies within a signal. In practical terms, this means that when a voice is transmitted over a network, certain frequencies may arrive earlier than others, creating a mismatch that can distort the original message. For instance, if a speaker says a word, the high-frequency components of that sound might reach the listener's ear before the lower frequencies. This can lead to confusion and misinterpretation, especially in conversations where clarity is essential.Moreover, delay distortion can be exacerbated by the medium through which the signal travels. Different materials can have varying effects on how quickly signals propagate. For example, fiber optic cables tend to minimize delay distortion compared to traditional copper wires because they allow light signals to travel with less interference. However, even in fiber optics, factors such as bends in the cable or connections can introduce delays that lead to distortion.Another critical aspect to consider is the impact of delay distortion on real-time applications. In scenarios such as video conferencing or online gaming, any noticeable delay can significantly affect user experience. Participants may find themselves talking over each other, leading to frustration and misunderstandings. This is why engineers continually seek ways to reduce delay distortion through better design and technology, ensuring that signals maintain their integrity throughout transmission.To mitigate the effects of delay distortion, various techniques can be employed. One common approach is to use equalization, which adjusts the signal to compensate for the different arrival times of various frequencies. This can help restore the original sound quality, making conversations clearer and more understandable. Additionally, advanced encoding methods can also play a role in minimizing delay distortion by ensuring that data is packed and transmitted in a way that reduces discrepancies in timing.In conclusion, understanding delay distortion (延迟失真) is vital for anyone involved in the field of communications. As technology continues to evolve, addressing the challenges posed by this phenomenon will remain a priority for engineers and developers alike. By implementing effective strategies to combat delay distortion, we can enhance the quality of our digital communications, leading to clearer conversations and more enjoyable experiences across various platforms. Ultimately, the goal is to ensure that our messages are delivered accurately and promptly, preserving the essence of human interaction in an increasingly digital world.
在通信技术领域,术语delay distortion(延迟失真)指的是信号在通过媒介传播时被改变的现象,导致信号的不同部分到达目的地所需的时间发生变化。这个问题在数字通信中尤为重要,因为传输数据的完整性至关重要。当我们讨论delay distortion时,通常关注它如何影响音频和视频传输的质量,这影响着从电话通话到流媒体服务的方方面面。造成delay distortion的主要原因之一是信号中各种频率传播速度的差异。实际上,这意味着当声音通过网络传输时,某些频率可能比其他频率更早到达,从而造成原始信息的错位。例如,如果说话者说出一个单词,声音的高频成分可能会比低频成分更早到达听者的耳朵。这可能导致混淆和误解,特别是在需要清晰度的对话中。此外,delay distortion还可能因信号传播的媒介而加剧。不同的材料对信号传播速度有不同的影响。例如,光纤电缆相比传统的铜线能够最小化delay distortion,因为它们允许光信号以更少的干扰传播。然而,即使在光纤中,诸如电缆弯曲或连接等因素也会引入延迟,从而导致失真。另一个关键方面是delay distortion对实时应用的影响。在视频会议或在线游戏等场景中,任何明显的延迟都可能显著影响用户体验。参与者可能会发现自己在交谈中互相打断,导致挫败感和误解。这就是为什么工程师们不断寻求通过更好的设计和技术来减少delay distortion,确保信号在传输过程中保持其完整性。为了减轻delay distortion的影响,可以采用各种技术。一种常见的方法是使用均衡,这可以调整信号以补偿各种频率到达时间的差异。这有助于恢复原始的音质,使对话更加清晰易懂。此外,先进的编码方法也可以在最小化delay distortion方面发挥作用,确保数据以减少时间差异的方式打包和传输。总之,理解delay distortion(延迟失真)对于任何参与通信领域的人来说都是至关重要的。随着技术的不断发展,解决这一现象带来的挑战将继续成为工程师和开发人员的优先事项。通过实施有效的策略来应对delay distortion,我们可以提高数字通信的质量,从而在各个平台上实现更清晰的对话和更愉快的体验。最终目标是确保我们的信息准确及时地传递,保留人类互动在日益数字化的世界中的本质。
