noise band

简明释义

噪声频带

英英释义

例句

1.The noise band 噪声带 in the frequency spectrum indicated interference from other devices.

频谱中的噪声带 noise band表明来自其他设备的干扰。

2.To improve audio clarity, we need to filter out the noise band 噪声带 from the recording.

为了提高音频清晰度，我们需要从录音中滤除噪声带 noise band。

3.The engineer analyzed the signal and found a significant noise band 噪声带 that was affecting the overall quality.

工程师分析了信号，发现有一个显著的噪声带 noise band影响了整体质量。

4.The technician adjusted the settings to minimize the noise band 噪声带 detected in the system.

技术员调整设置以最小化系统中检测到的噪声带 noise band。

5.During the experiment, we noticed a persistent noise band 噪声带 that could skew our results.

在实验过程中，我们注意到一个持续的噪声带 noise band可能会扭曲我们的结果。

作文

In the field of acoustics and signal processing, the term noise band refers to a range of frequencies within which noise is present. This concept is crucial for understanding how different sounds interact with each other and how they can affect communication and audio quality. Noise bands can occur in various environments, from urban settings filled with traffic sounds to natural landscapes where wind and wildlife create a distinct auditory backdrop. Understanding the implications of a noise band is essential in many fields, including music production, telecommunications, and environmental studies. For instance, in music production, sound engineers must be aware of the noise band when mixing tracks. If certain frequencies are dominated by unwanted noise, it can overshadow the intended sounds, making the final product less enjoyable for listeners. Techniques such as equalization are often employed to reduce the impact of these noise bands, allowing the desired frequencies to shine through. In telecommunications, the concept of a noise band becomes even more critical. Signal transmission can be severely affected by noise, especially in crowded frequency spectrums. Engineers work tirelessly to design systems that minimize the effects of noise bands, ensuring that communication remains clear and effective. This involves advanced filtering techniques that can isolate the desired signals from the noise, enhancing overall performance. Environmental studies also benefit from understanding noise bands. Researchers analyze how different noise bands affect wildlife and ecosystems. For example, certain species may be sensitive to specific frequencies, and excessive noise in those bands can disrupt their communication, mating rituals, or feeding habits. By identifying and mitigating these noise bands, conservationists can better protect vulnerable species and maintain ecological balance. Moreover, the awareness of noise bands extends into our daily lives. Urban planners consider noise pollution when designing cities, aiming to create spaces that minimize disruptive sounds. This involves studying the noise band of various sources, such as transportation systems, industrial activities, and recreational areas. By managing these noise bands effectively, planners can enhance the quality of life for residents, promoting healthier and more sustainable living environments. In conclusion, the concept of a noise band is multifaceted, impacting various aspects of our lives and industries. From music production to telecommunications and environmental conservation, recognizing and addressing noise bands is vital for achieving clarity and quality. As technology advances, our ability to manage and manipulate these noise bands will continue to improve, leading to better outcomes in sound quality, communication, and ecological preservation. Understanding the intricacies of noise bands not only enhances our technical capabilities but also enriches our appreciation for the auditory world around us.

在声学和信号处理领域，术语噪声带指的是存在噪声的一系列频率。这个概念对于理解不同声音如何相互作用以及它们如何影响交流和音频质量至关重要。噪声带可以出现在各种环境中，从充满交通声音的城市环境到风和野生动物创造出独特听觉背景的自然景观。理解噪声带的影响在许多领域都是必不可少的，包括音乐制作、通讯和环境研究。例如，在音乐制作中，声音工程师必须意识到噪声带在混音轨道时的存在。如果某些频率被不必要的噪声主导，它可能会掩盖预期的声音，使最终产品对听众的享受程度降低。通常使用均衡技术来减少这些噪声带的影响，从而使所需频率能够突出。在电信领域，噪声带的概念变得更加关键。信号传输可能会受到噪声的严重影响，特别是在拥挤的频谱中。工程师们努力设计系统，以最小化噪声带的影响，确保通信保持清晰有效。这涉及到先进的过滤技术，可以将所需信号与噪声隔离，提高整体性能。环境研究也受益于对噪声带的理解。研究人员分析不同噪声带如何影响野生动物和生态系统。例如，某些物种可能对特定频率敏感，而这些频率的过度噪声可能会干扰它们的交流、交配仪式或觅食习惯。通过识别和减轻这些噪声带，保护主义者可以更好地保护脆弱物种，维持生态平衡。此外，意识到噪声带延伸到了我们的日常生活中。城市规划者在设计城市时考虑噪声污染，旨在创建减少干扰声音的空间。这涉及到研究各种来源的噪声带，例如交通系统、工业活动和娱乐区域。通过有效管理这些噪声带，规划者可以提高居民的生活质量，促进更健康、更可持续的生活环境。总之，噪声带的概念是多方面的，影响着我们生活和各个行业的方方面面。从音乐制作到电信和环境保护，认识和解决噪声带对于实现清晰和质量至关重要。随着技术的进步，我们管理和操控这些噪声带的能力将继续提高，从而在音质、通信和生态保护方面取得更好的成果。理解噪声带的复杂性不仅增强了我们的技术能力，也丰富了我们对周围听觉世界的欣赏。