bistatic radar

简明释义

1. 收发分瞒雷达; 2. 双分雷达;

英英释义

例句

1.The bistatic radar 双静态雷达 system consists of a transmitter and receiver located at different sites.

该bistatic radar 双静态雷达系统由位于不同地点的发射器和接收器组成。

2.The military uses bistatic radar 双静态雷达 systems to detect incoming aircraft from multiple angles.

军方使用bistatic radar 双静态雷达系统从多个角度探测来袭的飞机。

3.Researchers are exploring the use of bistatic radar 双静态雷达 for weather monitoring due to its enhanced capabilities.

研究人员正在探索将bistatic radar 双静态雷达用于天气监测，因为它具有增强的能力。

4.One advantage of bistatic radar 双静态雷达 is that it can provide better coverage in urban environments.

bistatic radar 双静态雷达的一个优点是它可以在城市环境中提供更好的覆盖。

5.In coastal surveillance, bistatic radar 双静态雷达 can help identify small boats that may not be visible on traditional radar.

在沿海监视中，bistatic radar 双静态雷达可以帮助识别可能在传统雷达上不可见的小船。

作文

In the field of radar technology, one intriguing concept is the bistatic radar, which has gained significant attention for its unique operational characteristics. Unlike traditional monostatic radars, which use a single location for both transmitting and receiving signals, bistatic radar employs two separate locations: one for transmission and another for reception. This separation offers several advantages that make it a valuable tool in various applications, including military operations, air traffic control, and environmental monitoring.The primary advantage of bistatic radar is its ability to reduce the radar's vulnerability to detection. Since the transmitter and receiver are positioned apart, it becomes more challenging for adversaries to locate the radar system. This feature is particularly beneficial in military scenarios where stealth is crucial. By utilizing bistatic radar, forces can gather intelligence without revealing their position, thus enhancing their tactical capabilities.Moreover, bistatic radar systems can provide improved target detection and tracking abilities. The spatial separation between the transmitter and receiver allows for a wider coverage area and increased resolution. This capability is particularly useful in complex environments where multiple targets may be present. For instance, in air traffic control, bistatic radar can help monitor aircraft movements more effectively, ensuring safer navigation through crowded airspace.Another significant application of bistatic radar is in the field of environmental monitoring. Researchers have utilized this technology to study various phenomena, such as ocean waves and atmospheric conditions. By analyzing the backscattered signals received at different locations, scientists can gain insights into environmental changes and patterns, contributing to better understanding and management of natural resources.Despite its advantages, implementing bistatic radar systems also comes with challenges. One major issue is the synchronization between the transmitter and receiver. Precise timing is essential to ensure that the signals are correctly processed and interpreted. Additionally, the complexity of managing multiple sites can lead to increased operational costs and logistical difficulties.In conclusion, the bistatic radar represents a fascinating evolution in radar technology. Its distinct operational framework offers numerous benefits, including enhanced stealth, improved target detection, and valuable applications in environmental monitoring. As technology continues to advance, the potential for bistatic radar systems to play a vital role in various fields seems promising. Understanding and harnessing this technology could lead to significant advancements in both military and civilian domains, ultimately contributing to greater safety and efficiency in numerous operations.

在雷达技术领域，有一个引人注目的概念是bistatic radar，它因其独特的操作特性而受到广泛关注。与传统的单基地雷达不同，单基地雷达在同一地点发射和接收信号，而bistatic radar则使用两个不同的位置：一个用于发射，另一个用于接收。这种分离提供了多个优势，使其在军事行动、空中交通控制和环境监测等各种应用中成为一种有价值的工具。bistatic radar的主要优势是能够降低雷达被探测的脆弱性。由于发射器和接收器的位置分开，敌方更难找到雷达系统的位置。这一特性在军事场景中特别有利于隐蔽性至关重要的情况。通过利用bistatic radar，部队可以在不暴露自身位置的情况下收集情报，从而增强战术能力。此外，bistatic radar系统能够提供更好的目标检测和跟踪能力。发射器和接收器之间的空间分离使得覆盖区域更广，分辨率更高。这一能力在复杂环境中尤为有用，在这些环境中可能存在多个目标。例如，在空中交通控制中，bistatic radar可以帮助更有效地监测飞机的运动，确保在拥挤的空域中安全导航。bistatic radar的另一个重要应用是在环境监测领域。研究人员已经利用这一技术研究各种现象，如海洋波浪和大气条件。通过分析在不同位置接收到的反向散射信号，科学家可以深入了解环境变化和模式，为更好地理解和管理自然资源做出贡献。尽管有其优势，但实施bistatic radar系统也面临挑战。一个主要问题是发射器和接收器之间的同步。精确的时序对于确保信号被正确处理和解释至关重要。此外，管理多个站点的复杂性可能导致运营成本增加和后勤困难。总之，bistatic radar代表了雷达技术的迷人演变。其独特的操作框架提供了诸多好处，包括增强的隐蔽性、改善的目标检测以及在环境监测中的宝贵应用。随着技术的不断进步，bistatic radar系统在各个领域发挥重要作用的潜力似乎前景光明。理解和利用这一技术可能会导致军事和民用领域的重大进展，最终为众多操作的安全性和效率做出贡献。