delay equalization

简明释义

时延均衡

英英释义

例句

1.The software features a delay equalization tool that automatically adjusts the timing of audio signals.

该软件具有一个延迟均衡工具，可以自动调整音频信号的时序。

2.The audio engineer applied delay equalization to ensure that all sound frequencies were balanced, resulting in a clearer mix.

音频工程师应用了延迟均衡，以确保所有声音频率平衡，从而产生更清晰的混音。

3.During the live performance, the technician used delay equalization to compensate for the venue's acoustics.

在现场表演中，技术人员使用延迟均衡来补偿场地的声学效果。

4.To improve sound quality, the team implemented delay equalization in their audio processing chain.

为了提高音质，团队在他们的音频处理链中实施了延迟均衡。

5.In video conferencing, delay equalization is crucial for synchronizing audio and video streams.

在视频会议中，延迟均衡对于同步音频和视频流至关重要。

作文

In the world of audio engineering and signal processing, achieving a perfect sound can often feel like an elusive goal. One of the critical techniques that professionals use to enhance audio quality is known as delay equalization. This process involves adjusting the timing of various audio signals to ensure they reach the listener's ears in harmony. By understanding the principles behind delay equalization, sound engineers can create a more immersive and enjoyable listening experience.Delay equalization primarily addresses the issue of phase cancellation, which occurs when two or more audio signals overlap but are not perfectly aligned in time. When this misalignment happens, it can lead to certain frequencies being diminished or even completely canceled out, resulting in a less vibrant sound. To counteract this, engineers utilize delay equalization to synchronize the arrival times of different audio tracks, ensuring that they complement rather than interfere with each other.The process begins with analyzing the audio signals involved. Engineers will typically use specialized software to visualize the waveforms and identify any discrepancies in timing. Once these differences are pinpointed, they can apply delay equalization techniques to adjust the timing of specific tracks. This may involve adding a slight delay to one track or advancing another, depending on the desired outcome.Moreover, delay equalization is not only used for correcting timing issues but also for creative purposes. For instance, in music production, artists might intentionally introduce delays to create a sense of space or depth in their recordings. By manipulating the timing of certain elements, producers can craft a more dynamic soundscape that captivates the audience.In live sound settings, delay equalization plays a crucial role in ensuring that all attendees experience the performance in a cohesive manner. Venues with complex layouts may require strategic placement of speakers to minimize delays caused by distance. Sound engineers will often utilize delay equalization to time-align these speakers, ensuring that the sound reaches every corner of the venue simultaneously, thus enhancing the overall experience for the audience.Furthermore, the advent of digital audio technology has made delay equalization more accessible than ever. With the rise of digital audio workstations (DAWs), even amateur musicians can experiment with timing adjustments in their recordings. This democratization of sound engineering allows for greater creativity and innovation within the industry.In conclusion, delay equalization is an essential technique in the realm of audio engineering that helps to create a balanced and engaging sound. Whether in a studio or live setting, understanding and applying delay equalization can significantly enhance the auditory experience. As technology continues to evolve, the importance of mastering this technique will only grow, enabling sound engineers to push the boundaries of what is possible in audio production. Therefore, both aspiring and seasoned professionals should prioritize learning about delay equalization and its applications to elevate their craft and deliver exceptional sound quality to their audiences.

在音频工程和信号处理的世界中，实现完美的声音往往感觉像是一个难以捉摸的目标。专业人士用来提高音频质量的关键技术之一被称为延迟均衡。这个过程涉及调整各种音频信号的时序，以确保它们以和谐的方式到达听众的耳朵。通过理解延迟均衡背后的原理，声音工程师可以创造出更具沉浸感和愉悦感的听觉体验。延迟均衡主要解决相位抵消的问题，当两个或多个音频信号重叠但没有完美对齐时，就会发生这种情况。当这种不对齐发生时，某些频率可能会减弱甚至完全被抵消，导致声音不那么生动。为了对抗这一点，工程师利用延迟均衡来同步不同音轨的到达时间，确保它们互补而不是相互干扰。这个过程始于分析涉及的音频信号。工程师通常会使用专业软件来可视化波形并识别任何时序上的差异。一旦这些差异被确定，他们就可以应用延迟均衡技术来调整特定音轨的时序。这可能涉及向一条音轨添加轻微的延迟或提前另一条音轨，具体取决于所需的结果。此外，延迟均衡不仅用于修正时序问题，还用于创造性目的。例如，在音乐制作中，艺术家可能故意引入延迟，以在他们的录音中创造空间感或深度。通过操纵某些元素的时序，制作人可以制作出更具动态感的声音景观，吸引听众。在现场音响设置中，延迟均衡在确保所有观众以一致的方式体验表演方面发挥着至关重要的作用。具有复杂布局的场馆可能需要战略性地放置扬声器，以最小化由于距离造成的延迟。声音工程师通常会利用延迟均衡来时间对齐这些扬声器，确保声音同时到达场馆的每个角落，从而增强观众的整体体验。此外，数字音频技术的出现使得延迟均衡变得比以往任何时候都更容易获得。随着数字音频工作站（DAWs）的兴起，即使是业余音乐家也可以在他们的录音中实验时序调整。这种声音工程的民主化允许更大的创造力和创新性在行业内发展。总之，延迟均衡是音频工程领域中的一种重要技术，有助于创造平衡和引人入胜的声音。无论是在录音室还是现场环境中，理解和应用延迟均衡都可以显著提高听觉体验。随着技术的不断发展，掌握这一技术的重要性只会增加，使声音工程师能够突破音频制作的可能界限。因此，无论是有抱负的还是经验丰富的专业人士，都应该优先学习延迟均衡及其应用，以提升他们的技艺，并为观众提供卓越的音质。