carrier noise

简明释义

载波噪声

英英释义

例句

1.High levels of carrier noise 载波噪声 can lead to poor audio quality in telecommunications.

高水平的载波噪声 carrier noise 可能导致电信中的音频质量差。

2.We implemented a filter to minimize carrier noise 载波噪声 during data transmission.

我们实施了一个过滤器，以在数据传输过程中最小化载波噪声 carrier noise。

3.The technician explained that the carrier noise 载波噪声 could interfere with the signal quality.

技术人员解释说，载波噪声 carrier noise 可能会干扰信号质量。

4.To improve performance, we need to reduce the carrier noise 载波噪声 in our communication system.

为了提高性能，我们需要减少通信系统中的载波噪声 carrier noise。

5.The engineers conducted tests to measure the level of carrier noise 载波噪声 in the new device.

工程师们进行了测试，以测量新设备中的载波噪声 carrier noise 水平。

作文

In the world of telecommunications, the term carrier noise refers to the unwanted signals that accompany a carrier wave in a communication system. These signals can interfere with the transmission of information, leading to distortion and loss of data quality. Understanding carrier noise is crucial for engineers and technicians who work to improve communication systems and ensure clear signal transmission.When a signal is transmitted over a medium, it is typically accompanied by a carrier wave, which is modulated to carry information. However, various factors such as environmental conditions, equipment imperfections, and electromagnetic interference can introduce noise into the system. This unwanted noise can manifest as static or distortion in audio signals, or as errors in data transmission.One of the primary challenges in telecommunications is minimizing carrier noise. Engineers employ various techniques to reduce its impact, such as using advanced filtering methods, improving signal processing algorithms, and designing more robust communication protocols. For instance, digital communication systems often incorporate error correction codes that help recover lost information despite the presence of carrier noise.Moreover, the effects of carrier noise are not limited to traditional voice communication; they also extend to data networks and wireless communications. In these contexts, high levels of noise can lead to slower data rates and increased latency, which can severely affect user experience. As the demand for high-speed internet and reliable communication continues to grow, addressing carrier noise becomes increasingly important.In recent years, researchers have made significant strides in understanding the sources and characteristics of carrier noise. By utilizing advanced measurement techniques and simulation models, they can analyze how different types of noise affect various communication channels. This research not only helps in the design of better communication systems but also provides insights into new technologies, such as quantum communication, where noise plays a critical role in maintaining security and integrity.In conclusion, carrier noise is an essential concept in the field of telecommunications that highlights the challenges faced in transmitting clear and accurate signals. As technology continues to evolve, the quest to minimize carrier noise will remain a priority for engineers and researchers alike. By developing innovative solutions and improving existing technologies, we can enhance the quality of our communication systems and ensure that information is transmitted effectively across various platforms. The ongoing efforts to understand and mitigate carrier noise will ultimately contribute to a more connected and efficient world, where communication barriers are significantly reduced, allowing for seamless interaction and collaboration among individuals and organizations globally.

在电信领域，术语载波噪声指的是伴随载波波在通信系统中传播的干扰信号。这些信号会干扰信息的传输，导致失真和数据质量的损失。理解载波噪声对工程师和技术人员来说至关重要，他们致力于改善通信系统并确保信号的清晰传输。当信号通过媒介传输时，通常会伴随一个载波波，该载波被调制以承载信息。然而，各种因素，如环境条件、设备缺陷和电磁干扰，可能会在系统中引入噪声。这种不必要的噪声可能表现为音频信号中的静电或失真，或者在数据传输中出现错误。减少载波噪声是电信行业面临的主要挑战之一。工程师采用各种技术来降低其影响，例如使用先进的滤波方法、改进信号处理算法以及设计更稳健的通信协议。例如，数字通信系统通常会结合错误纠正代码，帮助在存在载波噪声的情况下恢复丢失的信息。此外，载波噪声的影响不仅限于传统的语音通信；它还扩展到数据网络和无线通信。在这些背景下，高水平的噪声可能导致数据速率降低和延迟增加，这可能严重影响用户体验。随着对高速互联网和可靠通信的需求不断增长，解决载波噪声的问题变得越来越重要。近年来，研究人员在理解载波噪声的来源和特性方面取得了重大进展。通过利用先进的测量技术和模拟模型，他们可以分析不同类型的噪声如何影响各种通信通道。这项研究不仅有助于设计更好的通信系统，还为新技术提供了见解，例如量子通信，在这种技术中，噪声在维护安全性和完整性方面发挥着关键作用。总之，载波噪声是电信领域中的一个重要概念，突显了在传输清晰和准确信号时所面临的挑战。随着技术的不断发展，减少载波噪声的努力将始终是工程师和研究人员的优先事项。通过开发创新的解决方案和改进现有技术，我们可以提高通信系统的质量，确保信息在各种平台上有效传输。对理解和减轻载波噪声的持续努力最终将有助于建立一个更加互联和高效的世界，在这里，通信障碍显著减少，使个人和组织之间的无缝互动与合作成为可能。