orbital repeater

简明释义

轨道中继站

英英释义

例句

1.The satellite network relies on an orbital repeater to enhance communication signals across vast distances.

卫星网络依赖于一个轨道中继器来增强跨越广阔距离的通信信号。

2.An orbital repeater can help maintain stable connectivity in remote areas where traditional networks fail.

一个轨道中继器可以帮助在传统网络失效的偏远地区维持稳定的连接。

3.During the mission, the astronauts used an orbital repeater to relay messages back to Earth.

在任务期间，宇航员使用一个轨道中继器将消息传回地球。

4.The new orbital repeater technology allows for faster data transmission between satellites.

新的轨道中继器技术允许卫星之间更快的数据传输。

5.Engineers are testing a prototype of an orbital repeater designed for deep space communication.

工程师正在测试一种用于深空通信的轨道中继器原型。

作文

In the age of advanced technology and communication, the need for reliable data transmission has never been more critical. One of the innovative solutions that have emerged in this field is the concept of an orbital repeater. An orbital repeater (轨道中继器) is a satellite-based device that receives signals from one location and retransmits them to another, effectively extending the range of communication systems. This technology plays a vital role in enhancing global connectivity, especially in remote areas where traditional communication infrastructure may be lacking.The functionality of an orbital repeater is relatively straightforward. It operates by receiving incoming signals, amplifying them, and then transmitting them back to Earth or to another satellite. This process allows for seamless communication over vast distances, making it possible for users to connect even when they are far away from terrestrial networks. The deployment of orbital repeaters has revolutionized the way we communicate, particularly in the realms of telecommunications, broadcasting, and internet services.One of the significant advantages of using orbital repeaters is their ability to cover large geographical areas. Unlike ground-based relay stations, which can be limited by terrain and obstacles, satellites in orbit can provide a clear line of sight to a much broader audience. This characteristic is particularly beneficial for emergency communication during natural disasters when ground infrastructure may be compromised. For instance, during hurricanes or earthquakes, orbital repeaters can facilitate communication between rescue teams and affected areas, ensuring that help reaches those in need promptly.Moreover, orbital repeaters are crucial for providing internet access to underserved regions. In many parts of the world, especially in developing countries, the lack of reliable internet infrastructure hampers economic growth and access to information. By utilizing orbital repeaters, service providers can offer broadband connectivity to remote communities, enabling them to participate in the digital economy. This not only improves the quality of life for residents but also opens up new opportunities for education and business.However, the implementation of orbital repeaters does come with its challenges. The cost of launching and maintaining satellites can be significant, and there are concerns about space debris and the long-term sustainability of satellite operations. As the number of satellites in orbit increases, it is essential to develop strategies for managing this growing population and ensuring that space remains a safe environment for all users.In conclusion, the advent of orbital repeaters marks a significant milestone in the evolution of communication technology. Their ability to facilitate reliable and extensive communication across vast distances is transforming how we connect with one another. As we continue to innovate and improve upon these technologies, it is imperative to consider the environmental and economic implications of our advancements. The future of global communication will undoubtedly rely on the successful integration of orbital repeaters into our existing infrastructure, paving the way for a more connected and informed world.

在先进技术和通信的时代，可靠数据传输的需求从未如此重要。出现的创新解决方案之一是轨道中继器的概念。轨道中继器（orbital repeater）是一种基于卫星的设备，可以接收来自一个位置的信号并将其重新传输到另一个位置，从而有效地扩展通信系统的范围。这项技术在增强全球连接性方面发挥着至关重要的作用，尤其是在缺乏传统通信基础设施的偏远地区。轨道中继器的功能相对简单。它通过接收传入信号、放大信号，然后将其传回地球或另一颗卫星来进行操作。这个过程使得跨越广阔距离的无缝通信成为可能，使用户即使远离地面网络也能够连接。轨道中继器的部署彻底改变了我们沟通的方式，特别是在电信、广播和互联网服务领域。使用轨道中继器的一个显著优势是它们能够覆盖大面积的地理区域。与受地形和障碍物限制的地面中继站不同，轨道上的卫星可以为更广泛的受众提供清晰的视线。这一特性在自然灾害期间尤为有益，当时地面基础设施可能受到损害。例如，在飓风或地震期间，轨道中继器可以促进救援队与受影响地区之间的通信，确保帮助及时到达需要的人。此外，轨道中继器对于向服务不足地区提供互联网接入至关重要。在世界许多地方，尤其是在发展中国家，缺乏可靠的互联网基础设施阻碍了经济增长和信息获取。通过利用轨道中继器，服务提供商可以为偏远社区提供宽带连接，使他们能够参与数字经济。这不仅改善了居民的生活质量，也为教育和商业开辟了新机会。然而，实施轨道中继器确实面临一些挑战。发射和维护卫星的成本可能很高，而且人们对太空垃圾和卫星操作的长期可持续性表示担忧。随着轨道上卫星数量的增加，制定管理这一不断增长的人口的策略并确保太空对所有用户保持安全环境至关重要。总之，轨道中继器的出现标志着通信技术发展的一个重要里程碑。它们在广阔距离内促进可靠和广泛通信的能力正在改变我们彼此联系的方式。随着我们继续创新和改进这些技术，考虑我们的进步对环境和经济的影响至关重要。全球通信的未来无疑将依赖于轨道中继器成功融入现有基础设施，为一个更加互联和知情的世界铺平道路。