beam reception

简明释义

定向接收

英英释义

例句

1.To enhance beam reception, we adjusted the angle of the antenna towards the transmitter.

为了增强信号接收，我们调整了天线的角度朝向发射器。

2.During the storm, we noticed a decline in beam reception, causing our TV to lose signal frequently.

在暴风雨期间，我们注意到信号接收下降，导致我们的电视频繁失去信号。

3.The technician recommended a larger dish to improve beam reception in our area.

技术人员建议使用更大的天线，以改善我们地区的信号接收。

4.The new satellite dish improved our beam reception significantly, allowing us to watch HD channels without interruption.

新的卫星天线显著改善了我们的信号接收，让我们可以无障碍地观看高清频道。

5.We installed a signal booster to enhance beam reception for our internet connection.

我们安装了信号增强器，以提高我们的互联网连接的信号接收。

作文

In the age of technology, communication has evolved significantly, and one of the most fascinating advancements is in the field of wireless communication. Among various techniques, beam reception plays a crucial role in enhancing signal quality and providing reliable connectivity. This method involves directing radio waves in a specific direction to improve reception and reduce interference from other signals. Understanding the concept of beam reception can help us appreciate its application in our daily lives, especially in mobile communications and satellite technology.To begin with, let’s explore what beam reception entails. Essentially, it refers to the process of capturing signals that are transmitted in a focused beam rather than in all directions. Traditional antennas often receive signals from various angles, which can lead to noise and poor quality. In contrast, beam reception utilizes advanced antenna systems that can concentrate on a particular signal source, thereby filtering out unwanted interference. This is particularly useful in environments where multiple signals are present, such as urban areas with numerous electronic devices.The importance of beam reception can be observed in various applications. For instance, in the realm of mobile phones, this technology allows users to maintain a strong connection even in crowded places. By focusing on the user’s device, the network can provide a clearer and more stable signal, leading to better call quality and faster data transmission. Moreover, beam reception is essential for satellite communications. Satellites rely on directed signals to communicate with ground stations, and any disruption can lead to loss of data or connectivity. By employing beam reception, satellites can ensure that their signals reach the intended receivers without significant loss.Furthermore, the advent of 5G technology has highlighted the significance of beam reception. With the increasing demand for high-speed internet and seamless connectivity, telecommunications companies are investing heavily in this technology. The ability to direct signals precisely means that users can enjoy faster download speeds and reduced latency. This is particularly beneficial for applications such as online gaming, video streaming, and virtual reality, where every millisecond counts.In addition to its practical applications, beam reception also presents some challenges. One notable issue is the need for precise alignment between the transmitter and receiver. If either party moves out of the designated beam path, the connection may weaken or drop entirely. This necessitates the development of adaptive systems that can automatically adjust to changes in position, ensuring continuous connectivity. As technology progresses, researchers are exploring innovative solutions to enhance the efficiency of beam reception and address these challenges.In conclusion, beam reception is a pivotal technology that has transformed the landscape of wireless communication. Its ability to focus signals enhances connectivity, improves data quality, and supports the demands of modern technology. As we continue to advance in this digital era, understanding and leveraging the benefits of beam reception will be vital for both consumers and industries alike. The future of communication looks bright, and beam reception will undoubtedly play a significant role in shaping it.

在科技时代，通信发生了显著的演变，其中最引人注目的进步之一是在无线通信领域。在各种技术中，波束接收在提高信号质量和提供可靠连接方面发挥着关键作用。这种方法涉及将无线电波定向到特定方向，以改善接收并减少来自其他信号的干扰。理解波束接收的概念可以帮助我们欣赏它在日常生活中的应用，特别是在移动通信和卫星技术中。首先，让我们探讨一下波束接收的含义。它本质上是指捕获以集中波束而非全方位传输的信号的过程。传统天线通常从各个角度接收信号，这可能导致噪音和较差的质量。相比之下，波束接收利用先进的天线系统，能够专注于特定的信号源，从而过滤掉不必要的干扰。这在多个信号存在的环境中尤为有用，例如电子设备众多的城市地区。波束接收的重要性可以在多个应用中观察到。例如，在移动电话领域，这项技术使用户即使在拥挤的地方也能保持强连接。通过专注于用户的设备，网络可以提供更清晰、更稳定的信号，从而提高通话质量和数据传输速度。此外，波束接收对卫星通信至关重要。卫星依赖定向信号与地面站进行通信，任何干扰都可能导致数据或连接丢失。通过采用波束接收，卫星可以确保其信号无显著损失地到达预定接收器。此外，第五代（5G）技术的出现突显了波束接收的重要性。随着对高速互联网和无缝连接的需求不断增加，电信公司正在大量投资这项技术。定向信号的能力意味着用户可以享受更快的下载速度和更低的延迟。这对在线游戏、视频流和虚拟现实等应用尤其有利，因为每毫秒都至关重要。除了实际应用外，波束接收还带来了一些挑战。其中一个显著的问题是发射器和接收器之间需要精确对齐。如果任一方移出指定波束路径，连接可能会减弱或完全中断。这就需要开发自适应系统，可以自动调整以应对位置变化，确保持续连接。随着技术的进步，研究人员正在探索创新解决方案，以提高波束接收的效率并解决这些挑战。总之，波束接收是一项关键技术，已改变无线通信的格局。其聚焦信号的能力增强了连接性，提高了数据质量，并支持现代技术的需求。随着我们在数字时代的不断进步，理解和利用波束接收的优势对于消费者和行业来说都至关重要。通信的未来看起来光明，波束接收无疑将在塑造其中发挥重要作用。