echo distortion

简明释义

回波失真

英英释义

例句

1.During the live performance, the band struggled with echo distortion that affected their timing.

在现场表演中，乐队受到回声失真的影响，导致他们的节奏出现问题。

2.To reduce echo distortion, we added sound-absorbing panels to the walls.

为了减少回声失真，我们在墙上添加了吸音板。

3.The audio engineer noticed an echo distortion in the recording, which made the vocals sound muddy.

音频工程师注意到录音中有回声失真，这使得人声听起来模糊不清。

4.The speaker's voice was clear, but the venue's acoustics caused significant echo distortion.

演讲者的声音很清晰，但场地的声学效果导致了显著的回声失真。

5.The conference call had noticeable echo distortion, making it difficult to understand the participants.

会议电话中有明显的回声失真，使得理解参与者变得困难。

作文

In today's digital age, sound technology plays a crucial role in how we experience music, movies, and even virtual reality. One of the fascinating aspects of sound engineering is the concept of echo distortion, which refers to the alteration of sound waves as they bounce off surfaces and return to the listener. This phenomenon can significantly affect the quality of audio, making it either more immersive or confusing, depending on its application. Understanding echo distortion is essential for anyone involved in sound design or audio production.To begin with, echo distortion occurs when sound waves reflect off various surfaces, such as walls, ceilings, and floors. These reflections can create multiple echoes that overlap with the original sound. In some cases, this can enhance the listening experience by adding depth and richness to the audio. For example, in a concert hall, the carefully designed architecture allows for a controlled echo distortion that complements the performance, creating a more engaging atmosphere for the audience.However, echo distortion can also lead to negative effects, particularly in smaller or poorly designed spaces. When sound waves bounce off hard surfaces without any absorption, the result can be a muddled mess of overlapping sounds that make it difficult for the listener to discern individual elements. This is often experienced in conference rooms or classrooms where the acoustics have not been properly considered. The presence of echo distortion in these environments can hinder communication, making it challenging for speakers to convey their messages effectively.In the realm of music production, sound engineers strive to manipulate echo distortion to achieve specific artistic effects. By using digital audio workstations (DAWs) and various plugins, they can create echoes that enhance a track's emotional impact. For instance, a subtle echo distortion can add a sense of space and dimension to a vocal performance, making it feel more intimate or expansive, depending on the desired outcome. This creative use of echo distortion exemplifies how sound can be shaped to evoke particular feelings and reactions from the audience.Moreover, understanding echo distortion is vital in the context of virtual reality (VR) and augmented reality (AR). As these technologies continue to evolve, the importance of realistic soundscapes becomes increasingly apparent. Developers must consider how sound behaves in a three-dimensional space, ensuring that echo distortion is accurately represented to create an immersive experience. If done correctly, users can feel as though they are truly present in a virtual environment, enhancing their overall experience.In conclusion, echo distortion is a multifaceted concept that plays a significant role in sound engineering, music production, and immersive technologies. By understanding how sound waves interact with their surroundings, professionals can harness the power of echo distortion to create captivating audio experiences. Whether enhancing a live performance, improving communication in a meeting room, or developing a virtual reality application, the careful management of echo distortion can make all the difference in how sound is perceived and enjoyed. As we continue to explore the vast world of sound, the significance of echo distortion will undoubtedly remain a critical area of study and experimentation.

在当今数字时代，声音技术在我们体验音乐、电影甚至虚拟现实方面发挥着至关重要的作用。声音工程中一个引人入胜的方面是“回声失真”的概念，它指的是声波在反射回听者时的变化。这种现象可以显著影响音频的质量，使其在应用中变得更具沉浸感或令人困惑。理解回声失真对任何参与声音设计或音频制作的人来说都是必不可少的。首先，回声失真发生在声波从各种表面（如墙壁、天花板和地板）反射时。这些反射可以产生与原始声音重叠的多个回声。在某些情况下，这可以通过为音频增添深度和丰富性来提升听觉体验。例如，在音乐厅中，精心设计的建筑结构允许控制的回声失真，这可以补充表演，为观众创造更具吸引力的氛围。然而，回声失真也可能导致负面效果，特别是在较小或设计不良的空间中。当声波在硬表面上反弹而没有任何吸收时，结果可能是重叠声音的混乱，使听众难以辨别各个元素。这种情况通常出现在会议室或教室中，音响效果没有得到适当考虑。回声失真的存在会妨碍沟通，使演讲者难以有效传达信息。在音乐制作领域，声音工程师努力操控回声失真以实现特定的艺术效果。通过使用数字音频工作站（DAW）和各种插件，他们可以创建增强曲目情感影响的回声。例如，微妙的回声失真可以为人声表演增添空间感和维度感，使其感觉更亲密或更广阔，具体取决于所需的结果。这种对回声失真的创造性使用展示了声音如何被塑造以唤起观众的特定情感和反应。此外，理解回声失真在虚拟现实（VR）和增强现实（AR）的背景下至关重要。随着这些技术的不断发展，真实声音场的重要性愈发明显。开发人员必须考虑声音在三维空间中的行为，确保准确呈现回声失真以创造沉浸式体验。如果做得正确，用户可以感觉自己真的身处于虚拟环境中，从而增强他们的整体体验。总之，回声失真是一个多方面的概念，在声音工程、音乐制作和沉浸式技术中发挥着重要作用。通过理解声波如何与周围环境相互作用，专业人士可以利用回声失真的力量创造引人入胜的音频体验。无论是增强现场表演、改善会议室的沟通，还是开发虚拟现实应用程序，回声失真的细致管理都能在声音的感知和享受中产生重大差异。随着我们继续探索声音的广阔世界，回声失真的重要性无疑将继续成为研究和实验的关键领域。