cross interference

简明释义

交叉干扰

英英释义

例句

1.In telecommunications, cross interference can lead to poor signal quality during phone calls.

在电信中，交叉干扰可能导致通话时信号质量差。

2.When using multiple devices in close proximity, cross interference can cause unexpected behavior.

当在近距离使用多个设备时，交叉干扰可能会导致意外行为。

3.The audio engineer had to adjust the settings to minimize cross interference between the microphones.

音频工程师必须调整设置，以最小化麦克风之间的交叉干扰。

4.The researchers noted that cross interference between different frequency bands could affect the accuracy of their measurements.

研究人员指出，不同频率带之间的交叉干扰可能会影响他们测量的准确性。

5.In a laboratory experiment, cross interference from nearby equipment distorted the results.

在实验室实验中，附近设备的交叉干扰扭曲了结果。

作文

In the realm of science and technology, the term cross interference refers to the phenomenon where two or more signals interfere with each other, leading to a distortion in the overall output. This concept is particularly significant in fields such as telecommunications, audio engineering, and even neuroscience. Understanding cross interference is crucial for improving the clarity and quality of signals in various applications. For instance, in telecommunications, when multiple signals are transmitted simultaneously, they can overlap and cause confusion, resulting in poor communication quality. Engineers strive to minimize cross interference by employing various techniques, such as frequency division multiplexing, which separates signals into different frequency bands to prevent overlap.Furthermore, cross interference can also be observed in audio systems, where multiple sound sources may blend together, creating unwanted noise or distortion. This is particularly evident in live performances or recordings where instruments and vocals may compete for auditory space. Sound engineers utilize tools like equalization and panning to manage cross interference, ensuring that each sound source is distinct and clear to the listener. By carefully adjusting levels and frequencies, they can create a balanced mix that enhances the overall listening experience.In the context of neuroscience, cross interference can manifest in cognitive processes where different stimuli compete for attention. For example, when individuals are presented with conflicting information from multiple sources, their ability to process and comprehend the information may be hindered. This is particularly relevant in educational settings, where teachers must present information clearly to avoid cross interference that could confuse students. Strategies such as breaking down complex concepts into simpler parts can help mitigate the effects of cross interference, allowing learners to focus on one aspect at a time.Moreover, the implications of cross interference extend beyond technical fields into everyday life. In social interactions, when multiple conversations occur simultaneously, individuals may struggle to follow each discussion, leading to misunderstandings. This highlights the importance of effective communication strategies that minimize cross interference. For instance, during meetings or group discussions, it is essential to establish guidelines for speaking turns to ensure that everyone has the opportunity to express their thoughts without competing voices drowning them out.In conclusion, cross interference is a multifaceted concept that plays a significant role in various domains, from technology to human interaction. By understanding the mechanisms behind cross interference, professionals across different fields can develop strategies to reduce its impact, ultimately leading to clearer communication and improved outcomes. Whether in the realm of telecommunications, audio engineering, neuroscience, or daily social interactions, recognizing and addressing cross interference is vital for fostering effective exchanges of information and enhancing overall clarity. As we continue to navigate an increasingly interconnected world, the awareness of cross interference will remain essential in our pursuit of better communication and understanding.

在科学和技术领域，术语交叉干扰指的是两个或多个信号相互干扰的现象，导致整体输出的失真。这个概念在电信、音频工程甚至神经科学等领域尤为重要。理解交叉干扰对于改善各种应用中信号的清晰度和质量至关重要。例如，在电信中，当多个信号同时传输时，它们可能会重叠并造成混淆，从而导致通信质量差。工程师们努力通过采用各种技术来最小化交叉干扰，例如频分复用，将信号分离到不同的频率带，以防止重叠。此外，交叉干扰也可以在音频系统中观察到，其中多个声源可能会融合在一起，产生不必要的噪音或失真。这在现场表演或录音中特别明显，因为乐器和人声可能会争夺听觉空间。声音工程师使用均衡和声像等工具来管理交叉干扰，确保每个声源对听众都是清晰且独特的。通过仔细调整音量和频率，他们可以创建一个平衡的混音，从而增强整体听觉体验。在神经科学的背景下，交叉干扰可能在认知过程中表现出来，不同的刺激竞争注意力。例如，当个体同时接收到来自多个来源的冲突信息时，他们处理和理解信息的能力可能会受到阻碍。这在教育环境中尤其相关，教师必须清晰地呈现信息，以避免交叉干扰导致学生困惑。将复杂概念分解成更简单的部分等策略可以帮助减轻交叉干扰的影响，使学习者能够专注于一个方面。此外，交叉干扰的影响超越了技术领域，延伸到日常生活中。在社交互动中，当多个对话同时发生时，个体可能难以跟随每个讨论，从而导致误解。这突显了有效沟通策略的重要性，以最小化交叉干扰。例如，在会议或小组讨论中，建立发言顺序的指导方针是至关重要的，以确保每个人都有机会表达自己的想法，而不会被竞争的声音淹没。总之，交叉干扰是一个多方面的概念，在从技术到人际互动的各个领域中发挥着重要作用。通过理解交叉干扰背后的机制，各个领域的专业人士可以制定策略来减少其影响，最终实现更清晰的沟通和更好的结果。无论是在电信、音频工程、神经科学还是日常社交互动中，认识到并解决交叉干扰对于促进有效的信息交流和提高整体清晰度至关重要。随着我们继续在一个日益互联的世界中航行，意识到交叉干扰将在我们追求更好沟通和理解的过程中保持重要性。