pilot frequency

简明释义

领示频率

英英释义

例句

1.During the pilot frequency 试点频率 phase, we collected valuable feedback from users.

在 试点频率 pilot frequency 阶段，我们收集了用户的宝贵反馈。

2.The pilot frequency 试点频率 will help us understand user engagement more effectively.

这个 试点频率 pilot frequency 将帮助我们更有效地理解用户参与度。

3.The research team decided to test the new software at a pilot frequency 试点频率 to evaluate its performance.

研究团队决定在一个 试点频率 pilot frequency 下测试新软件，以评估其性能。

4.The company implemented changes based on the results obtained during the pilot frequency 试点频率 testing.

公司根据在 试点频率 pilot frequency 测试中获得的结果进行了更改。

5.We need to determine the optimal pilot frequency 试点频率 for our marketing campaign.

我们需要确定营销活动的最佳 试点频率 pilot frequency。

作文

In today's rapidly evolving technological landscape, the concept of pilot frequency has gained significant importance, especially in the fields of telecommunications and broadcasting. The term pilot frequency refers to a specific frequency used to help synchronize and manage the transmission of signals in various communication systems. Understanding this concept is crucial for both engineers and consumers alike, as it plays a vital role in ensuring that our devices operate smoothly and efficiently.To grasp the significance of pilot frequency, one must first consider the complexities involved in modern communication systems. These systems rely on a multitude of frequencies to transmit data, voice, and video signals. However, with so many frequencies in use, it becomes essential to have a reference point that can help maintain order and clarity in the transmission process. This is where pilot frequency comes into play.The primary function of a pilot frequency is to act as a benchmark that helps receivers lock onto the correct signal amidst a sea of potential interference. For instance, in wireless communication, the pilot frequency allows devices to identify and connect to the appropriate network, ensuring that users can enjoy uninterrupted service. Without this reference frequency, devices might struggle to maintain a stable connection, leading to dropped calls or poor-quality audio and video.Moreover, pilot frequency is not only crucial for synchronization but also for monitoring the overall health of a communication channel. Engineers can use the pilot frequency to assess the quality of the signal being transmitted. By analyzing the performance of the pilot frequency, they can detect issues such as signal degradation or interference from other sources. This proactive approach enables them to make necessary adjustments to improve the system's efficiency and reliability.In the context of broadcasting, pilot frequency plays a similar role. Television and radio stations often use a designated pilot frequency to ensure that their broadcasts reach audiences without distortion. This frequency serves as a foundation upon which the entire broadcast is built, allowing for better reception and clearer sound quality. As viewers and listeners, we may take for granted the seamless experience we enjoy, but it is the pilot frequency that makes it all possible.As technology continues to advance, the application of pilot frequency is expanding beyond traditional communication systems. For example, in the realm of satellite communications, pilot frequency is utilized to stabilize the connection between satellites and ground stations. This ensures that data can be transmitted over long distances without loss of quality, which is essential for services like GPS and global internet access.In conclusion, the concept of pilot frequency is integral to the functioning of various communication systems, from mobile phones to broadcasting networks. It serves as a critical reference point that enhances signal clarity, stability, and overall performance. As we continue to rely on these technologies in our daily lives, understanding the role of pilot frequency can help us appreciate the intricate systems that keep us connected. Therefore, whether you are an engineer working on the next generation of communication technology or a consumer simply enjoying your favorite radio station, recognizing the importance of pilot frequency is essential for navigating our increasingly interconnected world.

在当今迅速发展的技术环境中，pilot frequency的概念变得越来越重要，尤其是在电信和广播领域。pilot frequency这个术语指的是用于帮助同步和管理各种通信系统中信号传输的特定频率。理解这一概念对于工程师和消费者来说都至关重要，因为它在确保我们的设备顺利高效运行方面发挥着重要作用。要掌握pilot frequency的重要性，首先必须考虑现代通信系统中涉及的复杂性。这些系统依赖于多种频率来传输数据、语音和视频信号。然而，使用如此多的频率，拥有一个参考点以帮助保持传输过程中的秩序和清晰度变得至关重要。这就是pilot frequency的作用所在。pilot frequency的主要功能是充当基准，帮助接收器在潜在干扰的海洋中锁定正确的信号。例如，在无线通信中，pilot frequency允许设备识别并连接到适当的网络，确保用户能够享受不间断的服务。如果没有这个参考频率，设备可能会难以维持稳定的连接，导致通话中断或音视频质量差。此外，pilot frequency不仅对同步至关重要，还对监测通信通道的整体健康状况至关重要。工程师可以利用pilot frequency评估传输信号的质量。通过分析pilot frequency的性能，他们可以检测到信号衰减或来自其他来源的干扰等问题。这种主动的方法使他们能够进行必要的调整，以提高系统的效率和可靠性。在广播的背景下，pilot frequency也起着类似的作用。电视和广播电台通常使用指定的pilot frequency来确保其广播无失真地到达观众。这个频率作为整个广播的基础，使接收效果更好，声音质量更清晰。作为观众和听众，我们可能会理所当然地认为我们享受的无缝体验，但正是pilot frequency使这一切成为可能。随着技术的不断进步，pilot frequency的应用正在超越传统通信系统。例如，在卫星通信领域，pilot frequency被用于稳定卫星与地面站之间的连接。这确保了数据可以在长距离上传输而不会丧失质量，这对于GPS和全球互联网访问等服务至关重要。总之，pilot frequency的概念对各种通信系统的运作至关重要，从手机到广播网络。它作为一个关键的参考点，增强了信号的清晰度、稳定性和整体性能。随着我们继续依赖这些技术在日常生活中，理解pilot frequency的作用可以帮助我们欣赏保持我们互联的复杂系统。因此，无论您是正在开发下一代通信技术的工程师，还是仅仅在享受您最喜欢的广播电台的消费者，认识到pilot frequency的重要性对于导航我们日益互联的世界至关重要。