carrier capture

简明释义

载劣俘获

英英释义

例句

1.Engineers are working on enhancing carrier capture 载波捕获 for better signal quality.

工程师们正在致力于增强载波捕获以获得更好的信号质量。

2.A strong focus on carrier capture 载波捕获 can enhance overall network performance.

对载波捕获的强烈关注可以提升整体网络性能。

3.The algorithm optimizes carrier capture 载波捕获 to reduce latency in data transmission.

该算法优化了载波捕获以减少数据传输中的延迟。

4.The new technology significantly improves carrier capture 载波捕获 in mobile networks.

这项新技术显著提高了移动网络中的载波捕获。

5.In urban areas, carrier capture 载波捕获 can be challenging due to interference.

在城市地区，由于干扰，载波捕获可能会很具挑战性。

作文

In the field of telecommunications, the term carrier capture refers to a phenomenon where a receiver locks onto the strongest signal from a group of competing signals. This is particularly important in environments with multiple transmitting sources, such as urban areas where numerous wireless networks operate simultaneously. The ability to effectively implement carrier capture can significantly enhance communication quality and reduce interference. The concept of carrier capture is rooted in the principles of signal processing. When multiple signals are transmitted over the same frequency band, they can interfere with one another, leading to degradation in the quality of the received signal. However, if a receiver is designed to prioritize the strongest signal, it can 'capture' that signal while disregarding others. This capability is crucial for ensuring clear and reliable communication, especially in mobile networks where users frequently move between different signal zones.One of the key advantages of carrier capture is its role in improving the performance of wireless networks. For instance, in a crowded urban environment, a mobile device may encounter signals from various cell towers. Without carrier capture, the device could struggle to maintain a stable connection, resulting in dropped calls or slow data speeds. By employing algorithms that leverage carrier capture, network providers can optimize signal reception, allowing users to enjoy seamless connectivity even in challenging conditions.Moreover, carrier capture plays a significant role in the development of advanced communication technologies. As we move towards the implementation of 5G networks, the need for efficient signal management becomes even more critical. 5G technology promises faster data transfer rates and lower latency, but these benefits can only be realized if devices can effectively utilize carrier capture to distinguish between various signals. This is particularly important in scenarios such as autonomous driving, where vehicles must communicate with each other and infrastructure in real-time to ensure safety and efficiency.In addition to telecommunications, the concept of carrier capture can also be applied in other fields, such as satellite communications and radio broadcasting. In these contexts, the ability to focus on the strongest signal can lead to improved reception quality and more reliable service. For example, satellite receivers often need to deal with signals that may be weakened by atmospheric conditions or physical obstructions. By utilizing carrier capture, these systems can enhance their ability to lock onto the desired signal, thereby improving overall performance.In conclusion, carrier capture is a vital concept in the realm of telecommunications and beyond. It allows receivers to focus on the strongest signals amidst a sea of competing transmissions, thereby enhancing communication quality and reliability. As technology continues to advance, the importance of carrier capture will only grow, shaping the future of wireless communication and enabling new applications that rely on robust signal management. Understanding and mastering the principles of carrier capture will be essential for professionals in the field, as it will play a pivotal role in the ongoing evolution of communication technologies.

在电信领域，术语载波捕获指的是接收器锁定来自一组竞争信号中最强信号的现象。这在多个传输源同时工作的环境中尤为重要，例如城市地区，众多无线网络同时运行。有效实施载波捕获的能力可以显著提高通信质量并减少干扰。载波捕获的概念根植于信号处理的原理。当多个信号在同一频带上发送时，它们可能会相互干扰，从而导致接收信号质量的下降。然而，如果接收器被设计为优先考虑最强信号，它就可以“捕获”该信号，同时忽略其他信号。这种能力对于确保清晰和可靠的通信至关重要，特别是在移动网络中，用户经常在不同信号区域之间移动。载波捕获的一个主要优势是它在改善无线网络性能方面的作用。例如，在拥挤的城市环境中，移动设备可能会遇到来自各种基站的信号。如果没有载波捕获，设备可能会难以保持稳定的连接，导致通话中断或数据速度缓慢。通过采用利用载波捕获的算法，网络提供商可以优化信号接收，使用户即使在困难条件下也能享受无缝的连接。此外，载波捕获在先进通信技术的发展中也发挥着重要作用。随着我们向5G网络的实施迈进，信号管理的高效性变得更加关键。5G技术承诺更快的数据传输速率和更低的延迟，但这些好处只有在设备能够有效利用载波捕获来区分各种信号时才能实现。这在自动驾驶等场景中尤为重要，因为车辆必须实时与彼此和基础设施进行通信，以确保安全和效率。除了电信，载波捕获的概念也可以应用于其他领域，如卫星通信和广播。在这些背景下，专注于最强信号的能力可以提高接收质量和服务的可靠性。例如，卫星接收器通常需要处理可能因大气条件或物理障碍而减弱的信号。通过利用载波捕获，这些系统可以增强其锁定所需信号的能力，从而改善整体性能。总之，载波捕获是电信及其他领域的重要概念。它使接收器能够在众多竞争传输中专注于最强信号，从而提高通信质量和可靠性。随着技术的不断进步，载波捕获的重要性只会增加，塑造无线通信的未来，并启用依赖于稳健信号管理的新应用。理解和掌握载波捕获的原理将对该领域的专业人士至关重要，因为它将在通信技术的持续演变中发挥关键作用。