dynamic distortion

简明释义

动态失真

英英释义

例句

1.The musician experimented with various pedals to achieve the desired dynamic distortion in their guitar sound.

音乐家尝试使用各种踏板，以在吉他声音中实现所需的动态失真。

2.The artist used software to manipulate the image, creating a dynamic distortion effect that captivated viewers.

艺术家使用软件对图像进行处理，创造出一种吸引观众的动态失真效果。

3.The audio engineer noticed a significant dynamic distortion in the recording, which affected the overall sound quality.

音频工程师注意到录音中存在显著的动态失真，这影响了整体音质。

4.During the testing phase, the team identified dynamic distortion in the signal transmission, necessitating further adjustments.

在测试阶段，团队发现信号传输中存在动态失真，需要进一步调整。

5.In real-time systems, dynamic distortion can lead to unexpected behaviors that may compromise system reliability.

在实时系统中，动态失真可能导致意外行为，从而影响系统的可靠性。

作文

In the realm of physics and engineering, the term dynamic distortion refers to the alterations that occur in a system's behavior due to varying forces and conditions over time. Understanding dynamic distortion is crucial for various applications, including structural engineering, acoustics, and even in the design of musical instruments. When we think about buildings, for instance, they are subjected to numerous forces such as wind, earthquakes, and human activity. These forces can cause the structure to deform or change shape temporarily, which is essentially what dynamic distortion entails.In acoustics, dynamic distortion plays a significant role in sound quality. For example, when a speaker produces sound, it may not perfectly reproduce the original audio signal. Instead, it might introduce some distortions due to the materials used, the design of the speaker, and the environment in which it operates. This phenomenon can be described as dynamic distortion because the sound waves are affected by various dynamic factors, leading to a different auditory experience than intended.Moreover, in the world of music, musicians often encounter dynamic distortion when they play their instruments. The way an instrument responds to the player's input can lead to variations in tone and pitch. For example, a guitar string vibrates differently based on how hard it is plucked, resulting in a range of sounds that can be classified under dynamic distortion. This aspect of performance adds depth and emotion to music, making it more engaging for listeners.Understanding dynamic distortion also has implications in technology and innovation. Engineers and designers must account for these distortions when creating products or structures. For instance, in automotive engineering, the chassis of a car must withstand various forces while maintaining its integrity and performance. If dynamic distortion is not properly managed, it could lead to failures or reduced efficiency of the vehicle.Furthermore, in the field of virtual reality (VR) and augmented reality (AR), dynamic distortion can affect user experience significantly. As users move through a digital environment, their actions can create distortions in the visual and auditory feedback they receive. Developers must work diligently to minimize these distortions to provide a seamless and immersive experience. By doing so, they ensure that the virtual world feels realistic and engaging, which is essential for the success of VR and AR technologies.In summary, dynamic distortion is a multifaceted concept that impacts various fields, from engineering to music and technology. It encompasses the changes in behavior and performance of systems under different conditions, highlighting the importance of understanding these effects. Whether it's ensuring the stability of a building, enhancing sound quality in audio devices, or creating immersive virtual experiences, recognizing and managing dynamic distortion is vital for achieving optimal results. As we continue to innovate and explore new frontiers, the significance of dynamic distortion will only grow, guiding us toward better designs and improved functionalities across multiple disciplines.

在物理和工程领域，术语动态失真指的是由于随时间变化的各种力和条件而导致的系统行为的改变。理解动态失真对于各种应用至关重要，包括结构工程、声学，甚至是乐器设计。当我们想到建筑物时，例如，它们会受到许多力量的影响，如风、地震和人类活动。这些力量可能会导致结构暂时变形或改变形状，这本质上就是动态失真的含义。在声学中，动态失真在音质中起着重要作用。例如，当扬声器发出声音时，它可能不会完美地重现原始音频信号。相反，由于使用的材料、扬声器的设计以及其操作的环境，它可能会引入一些失真。这种现象可以被描述为动态失真，因为声波受到各种动态因素的影响，导致听到的声音体验与预期不同。此外，在音乐世界中，音乐家在演奏乐器时经常会遇到动态失真。乐器对演奏者输入的响应方式会导致音调和音色的变化。例如，吉他弦的振动方式取决于弹奏的力度，从而产生一系列可以归类为动态失真的声音。这种表演的特性为音乐增添了深度和情感，使其对听众更具吸引力。理解动态失真在技术和创新中也具有重要意义。工程师和设计师必须在创建产品或结构时考虑这些失真。例如，在汽车工程中，汽车底盘必须能够承受各种力量，同时保持其完整性和性能。如果不正确管理动态失真，可能会导致故障或车辆效率降低。此外，在虚拟现实（VR）和增强现实（AR）领域，动态失真会显著影响用户体验。当用户在数字环境中移动时，他们的动作可能会导致视觉和听觉反馈中的失真。开发人员必须努力最小化这些失真，以提供无缝和沉浸式的体验。通过这样做，他们确保虚拟世界感觉真实且引人入胜，这对于VR和AR技术的成功至关重要。总之，动态失真是一个多方面的概念，影响多个领域，从工程到音乐和技术。它涵盖了在不同条件下系统行为和性能的变化，突显了理解这些影响的重要性。无论是确保建筑物的稳定性、提高音频设备的音质，还是创造沉浸式虚拟体验，认识和管理动态失真对于实现最佳结果至关重要。随着我们不断创新和探索新的前沿，动态失真的重要性只会增加，引导我们在多个学科中实现更好的设计和改进的功能。