suppressed carrier transmission

简明释义

载波抑制式传输

英英释义

例句

1.Our latest study focuses on the advantages of suppressed carrier transmission in wireless networks.

我们最新的研究集中于抑制载波传输在无线网络中的优势。

2.In digital communication systems, suppressed carrier transmission can reduce bandwidth requirements significantly.

在数字通信系统中，抑制载波传输可以显著减少带宽需求。

3.By using suppressed carrier transmission, we can achieve clearer signals in noisy environments.

通过使用抑制载波传输，我们可以在嘈杂环境中获得更清晰的信号。

4.The engineers implemented a new protocol for suppressed carrier transmission to improve network efficiency.

工程师们实施了一种新协议以改善网络效率，采用了抑制载波传输。

5.The telecommunications company adopted suppressed carrier transmission to enhance data rates.

这家电信公司采用了抑制载波传输来提高数据速率。

作文

In the realm of telecommunications, the efficiency and quality of signal transmission are paramount. One key concept that has emerged in recent years is suppressed carrier transmission. This technique plays a critical role in enhancing the performance of wireless communication systems by effectively managing the way information is encoded and transmitted over various channels.To understand suppressed carrier transmission, we must first delve into the basics of signal transmission. Traditionally, signals are transmitted with a carrier wave, which acts as a baseline frequency that carries the information. However, this method can lead to inefficiencies and increased interference, especially in crowded frequency bands. The introduction of suppressed carrier transmission addresses these issues by modifying how the carrier wave is utilized.In suppressed carrier transmission, the carrier wave is intentionally suppressed or reduced in amplitude during the transmission process. This means that instead of relying on a strong carrier signal, the information is embedded within a lower amplitude signal. This approach has several advantages. First, it reduces the overall power consumption of the transmission, making it more efficient. Second, it minimizes the potential for interference from other signals, allowing for clearer communication.Moreover, suppressed carrier transmission is particularly beneficial in environments with high levels of noise or interference. By suppressing the carrier wave, the system can focus on transmitting the actual information without the added burden of a strong carrier signal. This results in improved signal-to-noise ratios, which is crucial for maintaining the integrity of the transmitted data.Another significant aspect of suppressed carrier transmission is its application in digital communication systems. As technology evolves, the demand for higher data rates and more reliable connections increases. By utilizing this technique, engineers can develop systems that not only transmit data more efficiently but also accommodate more users within the same bandwidth. This is particularly important in scenarios such as mobile communications, where multiple devices compete for limited spectrum resources.Furthermore, suppressed carrier transmission is often employed in conjunction with advanced modulation techniques. These techniques allow for the encoding of information in a way that maximizes the use of available bandwidth while minimizing errors. The combination of suppressed carrier methods and sophisticated modulation schemes can lead to significant improvements in overall system performance.In conclusion, suppressed carrier transmission represents a pivotal advancement in the field of telecommunications. By suppressing the carrier wave, this technique enhances the efficiency and reliability of signal transmission, particularly in challenging environments. As the demand for faster and more reliable communication continues to grow, understanding and implementing suppressed carrier transmission will be essential for the development of next-generation wireless systems. Its ability to reduce interference, improve power efficiency, and support higher data rates positions it as a key player in the future of telecommunications, paving the way for innovations that can meet the ever-increasing demands of our connected world.

在电信领域，信号传输的效率和质量至关重要。近年来，一个关键概念是抑制载波传输。该技术在提升无线通信系统性能方面发挥了关键作用，通过有效管理信息的编码和在各种通道上的传输方式。要理解抑制载波传输，我们首先需要了解信号传输的基础知识。传统上，信号通过载波波形进行传输，载波波形作为承载信息的基线频率。然而，这种方法可能导致效率低下和干扰增加，尤其是在频率拥挤的频带中。抑制载波传输的引入解决了这些问题，通过修改载波波形的使用方式。在抑制载波传输中，载波波形在传输过程中故意被抑制或减少幅度。这意味着，与依赖强载波信号不同，信息嵌入在较低幅度的信号中。这种方法有几个优点。首先，它减少了传输的整体功耗，使其更高效。其次，它最小化了来自其他信号的潜在干扰，从而实现更清晰的通信。此外，抑制载波传输在高噪声或干扰环境中特别有利。通过抑制载波波形，系统可以专注于传输实际信息，而不必承受强载波信号的额外负担。这导致信噪比的改善，这对保持传输数据的完整性至关重要。抑制载波传输的另一个重要方面是其在数字通信系统中的应用。随着技术的发展，对更高数据速率和更可靠连接的需求不断增加。通过利用这种技术，工程师可以开发出不仅能更高效地传输数据，还能在同一带宽内容纳更多用户的系统。这在移动通信等场景中尤为重要，因为多个设备争夺有限的频谱资源。此外，抑制载波传输通常与先进的调制技术结合使用。这些技术允许以最大化可用带宽利用率并最小化错误的方式对信息进行编码。抑制载波方法与复杂调制方案的结合可以显著改善整体系统性能。总之，抑制载波传输代表了电信领域的一项重要进展。通过抑制载波波形，该技术提高了信号传输的效率和可靠性，特别是在具有挑战性的环境中。随着对更快、更可靠通信的需求不断增长，理解和实施抑制载波传输将对下一代无线系统的发展至关重要。它能够减少干扰、提高功效，并支持更高的数据速率，使其在电信未来中成为关键角色，为满足我们互联世界日益增长的需求铺平道路。