beam masking

简明释义

射束遮拦

英英释义

例句

1.They opted for beam masking to enhance the visual appeal of their living room.

他们选择了梁遮挡来增强客厅的视觉吸引力。

2.The architect suggested using beam masking to hide the structural beams in the ceiling.

建筑师建议使用梁遮挡来隐藏天花板中的结构梁。

3.In modern interior design, beam masking can create a seamless look by concealing unsightly beams.

在现代室内设计中，梁遮挡可以通过掩盖难看的梁来创造无缝的外观。

4.The use of beam masking in this office space improved the overall aesthetic significantly.

在这个办公室空间中使用梁遮挡显著改善了整体美感。

5.During the renovation, the contractor recommended beam masking to avoid disrupting the open floor plan.

在翻新过程中，承包商建议使用梁遮挡以避免破坏开放式平面图。

作文

In the realm of modern technology, particularly in fields such as telecommunications and signal processing, terms like beam masking have become increasingly relevant. To understand this concept, we first need to explore what it entails and how it is applied in various scenarios. Beam masking refers to a technique used to control the directionality of signals, particularly in antenna design and wireless communications. By selectively blocking or allowing certain signals to pass through, engineers can optimize the performance of communication systems. This process is crucial in environments where multiple signals may interfere with one another, leading to degraded performance and loss of data integrity.One of the primary applications of beam masking is found in phased array antennas. These antennas consist of multiple individual elements that can be controlled to create a specific radiation pattern. By applying beam masking, engineers can enhance the desired signals while suppressing unwanted ones. This results in improved clarity and range for communication devices, which is essential for everything from cellular networks to satellite communications.Moreover, beam masking plays a significant role in radar technology. In radar systems, the ability to focus on a specific target while ignoring others is vital for accurate detection and tracking. By implementing beam masking, radar systems can effectively filter out noise and irrelevant signals, ensuring that the information received is both accurate and reliable. This capability is particularly important in military applications, where precision can mean the difference between success and failure.In addition to its technical applications, beam masking also has implications in the field of audio engineering. For instance, in sound reinforcement systems, beam masking techniques can be employed to minimize feedback and enhance sound quality. By directing sound waves in specific directions and masking others, audio engineers can create a more immersive experience for the audience. This is especially important in large venues where sound dispersion can lead to uneven audio quality.Furthermore, the concept of beam masking extends beyond engineering and technology. It can also be metaphorically applied to social interactions and communication. Just as in technology where certain signals are masked to improve performance, individuals often choose to mask their emotions or opinions in social settings. This can lead to misunderstandings and hinder effective communication. Recognizing when and how we engage in beam masking in our personal lives can help us foster more authentic relationships and improve our interpersonal skills.In conclusion, beam masking is a multifaceted concept that spans various fields, from telecommunications to audio engineering and even social dynamics. Understanding its significance and applications can provide valuable insights into how we communicate and interact with the world around us. As technology continues to evolve, the importance of mastering techniques such as beam masking will only grow, leading to advancements that enhance our connectivity and understanding.

在现代科技领域，尤其是在电信和信号处理等领域，像beam masking这样的术语变得越来越相关。要理解这个概念，我们首先需要探讨它的含义及其在各种场景中的应用。Beam masking指的是一种控制信号方向性的技术，特别是在天线设计和无线通信中。通过选择性地阻挡或允许某些信号通过，工程师可以优化通信系统的性能。在多个信号可能相互干扰、导致性能下降和数据完整性丧失的环境中，这一过程至关重要。Beam masking的一个主要应用是在相控阵天线中。这些天线由多个独立元件组成，可以被控制以创建特定的辐射模式。通过应用beam masking，工程师可以增强所需信号，同时抑制不必要的信号。这导致通信设备的清晰度和范围提高，对于从蜂窝网络到卫星通信等各种应用来说，这是必不可少的。此外，beam masking在雷达技术中也发挥着重要作用。在雷达系统中，能够专注于特定目标而忽略其他目标对于准确检测和跟踪至关重要。通过实施beam masking，雷达系统可以有效过滤噪声和无关信号，确保接收到的信息既准确又可靠。这种能力在军事应用中尤为重要，因为精确度可能意味着成功与失败之间的区别。除了技术应用，beam masking在音频工程领域也有重要意义。例如，在声音增强系统中，可以采用beam masking技术来最小化反馈并提高音质。通过将声波朝特定方向引导并遮蔽其他声波，音频工程师可以为观众创造更沉浸的体验。这在大型场馆中特别重要，因为声波扩散可能导致音质不均匀。此外，beam masking的概念超越了工程和技术。它还可以隐喻性地应用于社会互动和沟通。正如在技术中某些信号被遮蔽以改善性能一样，个人在社交场合中常常选择掩饰他们的情感或观点。这可能导致误解，并阻碍有效的沟通。认识到我们在个人生活中何时以及如何参与beam masking可以帮助我们培养更真实的关系，并改善人际交往技巧。总之，beam masking是一个多方面的概念，跨越多个领域，从电信到音频工程，甚至社会动态。理解它的重要性和应用可以提供对我们如何与周围世界沟通和互动的宝贵见解。随着技术的不断发展，掌握诸如beam masking等技术的重要性只会增加，从而推动增强我们的连接性和理解力的进步。