attenuation equalization

简明释义

1. 衰减等化; 2. 衰减均衡;

英英释义

例句

1.The audio engineer implemented attenuation equalization 衰减均衡 to adjust the sound levels for a more balanced mix.

音频工程师实施了 attenuation equalization 衰减均衡 来调整声音水平，以获得更平衡的混音。

2.Television broadcasting relies on attenuation equalization 衰减均衡 to ensure that all viewers receive a consistent signal quality.

电视广播依赖于 attenuation equalization 衰减均衡 确保所有观众接收到一致的信号质量。

3.In fiber optic communication systems, attenuation equalization 衰减均衡 is crucial to maintain signal integrity over long distances.

在光纤通信系统中，attenuation equalization 衰减均衡 对于维持长距离信号完整性至关重要。

4.In radar systems, attenuation equalization 衰减均衡 helps improve target detection by balancing the received signal strength.

在雷达系统中，attenuation equalization 衰减均衡 通过平衡接收信号强度来帮助提高目标检测能力。

5.Wireless networks often use attenuation equalization 衰减均衡 techniques to compensate for signal loss due to distance and obstacles.

无线网络通常使用 attenuation equalization 衰减均衡 技术来补偿由于距离和障碍物造成的信号损失。

作文

In the world of telecommunications and signal processing, the concept of attenuation equalization plays a crucial role in ensuring that signals are transmitted clearly and effectively over long distances. Attenuation refers to the reduction in strength of a signal as it travels through a medium, such as fiber optic cables or radio waves. This loss of signal strength can lead to distortion and degradation of the information being transmitted, making it essential to implement techniques that counteract these effects.The need for attenuation equalization arises from the fact that different frequencies within a signal can experience varying levels of attenuation. For instance, lower frequencies may attenuate less than higher frequencies, which can result in an imbalanced signal when it reaches its destination. To address this issue, engineers employ various equalization strategies to adjust the amplitude of specific frequency components, thereby restoring balance to the overall signal.One common method of achieving attenuation equalization is through the use of equalizers, which are devices or algorithms designed to modify the frequency response of a signal. These equalizers can be implemented in both hardware and software forms, allowing for flexibility in various applications. In digital communications, adaptive equalization techniques are often utilized, where the equalizer continuously adjusts its parameters based on the incoming signal's characteristics. This adaptability enables the system to respond to changing conditions, such as interference or noise, ensuring optimal performance.Furthermore, attenuation equalization is not limited to telecommunications but also finds applications in audio processing, broadcasting, and even in consumer electronics. For example, in audio systems, equalizers allow users to enhance or diminish certain frequencies, tailoring the sound output to their preferences. This ability to manipulate frequency response is essential for achieving high-quality audio reproduction, whether in a live concert setting or within the confines of a home theater.The importance of attenuation equalization cannot be overstated, as it directly impacts the quality and reliability of communication systems. In modern society, where information is exchanged at unprecedented speeds and volumes, effective signal transmission is paramount. Without proper equalization, data loss and communication breakdowns could occur, leading to significant disruptions in services that rely on seamless connectivity.In conclusion, attenuation equalization serves as a fundamental technique in the fields of telecommunications and signal processing. By understanding and implementing equalization strategies, engineers can mitigate the effects of signal attenuation, ensuring that information is transmitted accurately and efficiently. Whether in professional audio setups or advanced communication networks, the principles of attenuation equalization continue to be indispensable in maintaining the integrity of signal transmission, ultimately enhancing our ability to communicate and connect with one another across vast distances.

在电信和信号处理的世界中，短语衰减均衡的概念在确保信号在长距离内清晰有效地传输中起着至关重要的作用。衰减是指信号在通过介质（如光纤电缆或无线电波）传播时强度的降低。这种信号强度的损失可能导致信息传输的失真和退化，因此必须实施对抗这些影响的技术。需要衰减均衡的原因在于信号中的不同频率可能会经历不同程度的衰减。例如，低频可能衰减得比高频少，这可能导致信号到达目的地时不平衡。为了解决这个问题，工程师采用各种均衡策略来调整特定频率成分的幅度，从而恢复整体信号的平衡。实现衰减均衡的一种常见方法是使用均衡器，这是一种旨在修改信号频率响应的设备或算法。这些均衡器可以以硬件或软件形式实现，使其在各种应用中具有灵活性。在数字通信中，通常使用自适应均衡技术，其中均衡器根据传入信号的特征持续调整其参数。这种适应性使系统能够响应变化的条件，例如干扰或噪声，从而确保最佳性能。此外，衰减均衡不仅限于电信，还在音频处理、广播甚至消费电子产品中找到了应用。例如，在音频系统中，均衡器允许用户增强或减弱某些频率，根据他们的偏好调节声音输出。这种操控频率响应的能力对于实现高质量的音频重现至关重要，无论是在现场音乐会环境中还是在家庭影院的限制中。衰减均衡的重要性不容小觑，因为它直接影响通信系统的质量和可靠性。在现代社会，信息以空前的速度和数量进行交换，有效的信号传输至关重要。如果没有适当的均衡，数据丢失和通信中断可能会发生，从而导致依赖无缝连接的服务出现重大中断。总之，衰减均衡作为电信和信号处理领域的基本技术，通过理解和实施均衡策略，工程师可以减轻信号衰减的影响，确保信息准确高效地传输。无论是在专业音频设置还是先进的通信网络中，衰减均衡的原理在维护信号传输的完整性方面继续发挥不可或缺的作用，最终增强了我们在广阔距离上相互沟通和连接的能力。