repeating relay

简明释义

转发继电器

英英释义

例句

1.The conference call utilized a repeating relay system to connect multiple locations seamlessly.

会议电话利用了一个重发中继系统，以无缝连接多个地点。

2.To improve communication, the organization implemented a repeating relay strategy for project updates.

为了改善沟通，组织实施了一种项目更新的重发中继策略。

3.During the event, we set up a repeating relay to manage the flow of information between teams.

在活动期间，我们设置了一个重发中继来管理团队之间的信息流。

4.In the marathon, the runners participated in a repeating relay format to keep the energy high.

在马拉松中，跑者们以重发中继的形式参与，以保持高能量。

5.The team used a repeating relay to ensure that the message reached everyone in the group.

团队使用了一个重发中继来确保信息传达到小组中的每个人。

作文

In the world of telecommunications and networking, the term repeating relay refers to a device or system that amplifies and retransmits signals to extend their range. This is particularly crucial in scenarios where signals need to travel long distances, such as in radio communications, satellite transmissions, and internet data transfer. The concept of a repeating relay can be likened to a relay race, where each runner passes the baton to the next, ensuring that the race continues smoothly and efficiently.The function of a repeating relay is essential in maintaining the integrity of the signal being transmitted. Without it, the quality of communication would degrade significantly over long distances due to attenuation, interference, and other environmental factors. For instance, in a radio communication system, a repeating relay can pick up a weak signal from a distant transmitter, amplify it, and then send it out again, allowing the message to reach its intended destination without loss of clarity.Moreover, the use of repeating relays is not limited to just one application. They are employed in various fields, including television broadcasting, mobile phone networks, and even in satellite communications. In television broadcasting, for example, a repeating relay can help transmit signals from the main station to areas that are otherwise difficult to reach due to geographical barriers, such as mountains or dense urban environments. This ensures that more people can access broadcast services, thereby enhancing the overall reach and effectiveness of the media.In mobile networks, repeating relays play a critical role in providing coverage in rural and remote areas. With the increasing demand for mobile data and connectivity, network providers often deploy these relays to ensure that users in less populated regions can still enjoy reliable service. By strategically placing repeating relays, companies can effectively bridge the gap between urban and rural connectivity, promoting digital inclusion.The design and implementation of repeating relays also come with their set of challenges. Engineers must carefully consider factors such as the distance between relays, the frequency of the signals, and potential sources of interference. Additionally, the placement of these relays must be optimized to ensure maximum coverage while minimizing costs. This requires a deep understanding of both the technology involved and the physical environment in which the relays will operate.As technology advances, the capabilities of repeating relays continue to evolve. Innovations in digital signal processing and wireless technologies have led to more efficient and effective relay systems. For instance, modern repeating relays can automatically adjust their amplification levels based on the strength of the incoming signal, ensuring optimal performance at all times.In conclusion, the concept of a repeating relay is integral to modern communication systems. Its ability to amplify and retransmit signals allows for seamless connectivity across vast distances, making it an indispensable component in various applications. As we continue to rely on technology for communication, understanding the role of repeating relays will be essential for both consumers and professionals in the field. Their importance in bridging communication gaps cannot be overstated, and as advancements continue, we can expect to see even more innovative uses for these vital devices in the future.

在电信和网络的世界中，术语重复中继指的是一种设备或系统，用于放大并重新传输信号以扩展其范围。这在信号需要远距离传播的情况下尤其重要，例如在无线电通信、卫星传输和互联网数据传输中。重复中继的概念可以类比为接力赛，每个跑者将接力棒传递给下一个，确保比赛顺利高效地进行。重复中继的功能对于保持传输信号的完整性至关重要。如果没有它，通信质量会因衰减、干扰和其他环境因素而显著降低。例如，在无线电通信系统中，重复中继可以接收来自远处发射器的微弱信号，放大它，然后再次发送，从而使信息能够清晰地到达预定目的地。此外，重复中继的使用并不限于某一应用。它们在多个领域中都被使用，包括电视广播、移动电话网络，甚至卫星通信。例如，在电视广播中，重复中继可以帮助将信号从主站点传输到由于地理障碍（如山脉或密集城市环境）而难以到达的地区。这确保了更多的人能够访问广播服务，从而增强了媒体的整体覆盖面和有效性。在移动网络中，重复中继在提供农村和偏远地区的覆盖方面发挥着关键作用。随着对移动数据和连接的需求不断增加，网络提供商通常会部署这些中继，以确保居住在较少人口区域的用户也能享受可靠的服务。通过战略性地放置重复中继，公司可以有效地弥合城市与农村之间的连接差距，促进数字包容性。设计和实施重复中继也面临一系列挑战。工程师必须仔细考虑诸如中继之间的距离、信号的频率以及潜在的干扰源等因素。此外，这些中继的放置必须经过优化，以确保最大覆盖范围，同时最小化成本。这需要对相关技术和中继将要运行的物理环境有深入的理解。随着技术的发展，重复中继的能力也在不断演变。数字信号处理和无线技术的创新导致了更高效和有效的中继系统。例如，现代的重复中继可以根据输入信号的强度自动调整其放大水平，从而确保在任何时候都能实现最佳性能。总之，重复中继的概念是现代通信系统不可或缺的一部分。它放大和重新传输信号的能力使得跨越广阔距离的无缝连接成为可能，使其在各种应用中成为不可或缺的组成部分。随着我们继续依赖技术进行通信，理解重复中继的作用对于消费者和该领域的专业人士来说都至关重要。它们在弥合通信差距方面的重要性不容小觑，随着技术的进步，我们可以期待看到这些重要设备在未来的更多创新用途。