oblique radio transmission

简明释义

无线电波倾斜传播

英英释义

例句

1.Engineers are studying the effects of oblique radio transmission in urban environments.

工程师正在研究城市环境中倾斜无线电传输的影响。

2.The new technology improves oblique radio transmission efficiency significantly.

新技术显著提高了倾斜无线电传输的效率。

3.The military relies on oblique radio transmission to communicate securely across long distances.

军方依靠倾斜无线电传输在长距离内安全通信。

4.In aviation, oblique radio transmission is crucial for navigation and communication.

在航空领域，倾斜无线电传输对导航和通信至关重要。

5.During the storm, the oblique radio transmission helped maintain contact with the rescue teams.

在暴风雨期间，倾斜无线电传输帮助与救援队保持联系。

作文

In the realm of communication technology, various methods have been developed to transmit information across distances. One such method is known as oblique radio transmission, which involves sending radio waves at an angle rather than directly. This technique has gained popularity due to its unique advantages in specific applications, especially in situations where direct line-of-sight communication is not feasible. Understanding oblique radio transmission is crucial for those engaged in fields such as telecommunications, broadcasting, and even military operations.The principle behind oblique radio transmission lies in the behavior of radio waves as they interact with the Earth's atmosphere and surface. When radio waves are transmitted at an angle, they can reflect off the ionosphere, allowing them to cover greater distances than conventional direct transmissions. This capability is particularly beneficial for long-range communication, as it can enable signals to reach areas that would otherwise be out of range.One of the primary applications of oblique radio transmission is in the field of amateur radio. Enthusiasts often utilize this technique to communicate with operators located far away, taking advantage of the natural curvature of the Earth and atmospheric conditions. By adjusting the angle of transmission, they can optimize their signals for maximum reach and clarity, thereby enhancing their communication experience.Moreover, oblique radio transmission plays a significant role in maritime and aviation communication. Ships and aircraft often rely on this method to maintain contact with control towers and other vessels, especially in remote areas where traditional communication methods may fail. The ability to transmit signals at an angle allows these vehicles to navigate safely and efficiently, ensuring that they remain connected even in challenging environments.In military applications, oblique radio transmission is invaluable for secure communications. Military forces often operate in diverse terrains where direct communication may be compromised. By employing this technique, they can establish reliable communication links that are less susceptible to interception or disruption. The strategic advantage provided by oblique radio transmission can be critical during operations where coordination and information sharing are paramount.However, it is essential to note that oblique radio transmission is not without its challenges. The effectiveness of this method can be influenced by various factors, including atmospheric conditions, frequency selection, and the presence of obstacles. Engineers and technicians must carefully consider these variables when designing systems that utilize this transmission technique to ensure optimal performance.In conclusion, oblique radio transmission is a fascinating and valuable method of communication that has numerous applications across different fields. Its ability to transmit signals at an angle opens up new possibilities for long-range communication, making it an essential tool for amateur radio operators, maritime and aviation professionals, and military personnel alike. As technology continues to evolve, understanding and mastering techniques like oblique radio transmission will be vital for anyone looking to excel in the ever-changing landscape of communication technology.

在通信技术领域，已经开发出多种方法来传输远处的信息。其中一种方法被称为倾斜无线电传输，它涉及以角度而非直接的方式发送无线电波。这种技术因其在特定应用中的独特优势而受到欢迎，尤其是在无法进行直接视线通信的情况下。理解倾斜无线电传输对于从事电信、广播甚至军事操作等领域的人至关重要。倾斜无线电传输背后的原理在于无线电波与地球大气层和表面相互作用的行为。当无线电波以角度传输时，它们可以反射到电离层，从而使其覆盖的距离超过常规的直接传输。这种能力在长距离通信中尤其有益，因为它可以使信号到达原本超出范围的区域。倾斜无线电传输的主要应用之一是在业余无线电领域。爱好者们经常利用这种技术与远方的操作员进行通信，利用地球的自然曲率和大气条件。通过调整传输的角度，他们可以优化信号以达到最大覆盖和清晰度，从而增强他们的通信体验。此外，倾斜无线电传输在海事和航空通信中也发挥着重要作用。船只和飞机通常依赖这种方法与控制塔和其他船只保持联系，特别是在传统通信方法可能失效的偏远地区。以角度传输信号的能力使这些交通工具能够安全高效地导航，确保它们即使在挑战性环境中也能保持连接。在军事应用中，倾斜无线电传输对安全通信至关重要。军事部队通常在各种地形中作战，直接通信可能会受到影响。通过采用这种技术，他们可以建立可靠的通信链接，这些链接不易被拦截或干扰。倾斜无线电传输所提供的战略优势在协调和信息共享至关重要的行动中可能是关键。然而，值得注意的是，倾斜无线电传输并非没有挑战。这种方法的有效性可能会受到各种因素的影响，包括大气条件、频率选择和障碍物的存在。工程师和技术人员在设计利用此传输技术的系统时，必须仔细考虑这些变量，以确保最佳性能。总之，倾斜无线电传输是一种引人入胜且有价值的通信方法，在不同领域有着众多应用。其以角度传输信号的能力为长距离通信开辟了新的可能性，使其成为业余无线电操作员、海事和航空专业人士以及军事人员的重要工具。随着技术的不断发展，理解和掌握像倾斜无线电传输这样的技术，对于任何希望在不断变化的通信技术领域中脱颖而出的人来说，将是至关重要的。