monopulse

简明释义

英[ˈmɒnəpʌls]美[ˈmɑnəˌpʌls]

n. 单脉冲

英英释义

单词用法

同义词

反义词

例句

1.For angle glint induced in angle measurement by monopulse radar, a method for processing such case is achieved.

针对单脉冲测角会出现的角闪烁现象，给出了处理角闪烁的办法。

2.Operating in bad environments and wide band conditions, the amplitude and phase of monopulse sum and difference channels may drift severely.

工作在宽频及恶劣环境条件下的单脉冲雷达，和差通道的幅度和相位会发生严重漂移。

3.The sum and difference patterns as well as the directivity of the monopulse antenna arrays are optimized based on genetic algorithms (GA).

采用遗传算法来优化单脉冲阵列天线的和、差方向图和方向性系数。

4.This paper introduces a method of range tracking of monopulse radar, studies the principle of the range deception jamming.

介绍了一种脉冲雷达的距离跟踪方案，研究了距离欺骗干扰的原理。

5.The adaptive monopulse at subarray level is required for applying monopulse technique in multi-function phased array radar.

子阵级自适应单脉冲是将单脉冲测角应用于多功能相控阵雷达所需要采用的技术。

6.The mathematical model of the limited phase-sweeping radar using a single circuit monopulse receiver is introduced in the article.

介绍了一种采用单路单脉冲接收机的有限相扫雷达的相控跟踪系统的数字模型。

7.Therefore, the normalized slope of difference pattern arrives at 1.4 with a particular monopulse feed.

因此，使用特殊设计的单脉冲馈源可望将归一化差斜率提高到1 .4。

8.In military applications, monopulse guidance is crucial for missile accuracy.

在军事应用中，单脉冲制导对于导弹的准确性至关重要。

9.The satellite employs a monopulse antenna for precise position determination.

该卫星采用单脉冲天线进行精确位置确定。

10.The radar system uses monopulse technology to accurately track moving targets.

该雷达系统使用单脉冲技术来准确跟踪移动目标。

11.Engineers designed a new monopulse system to improve signal clarity.

工程师设计了一种新的单脉冲系统，以提高信号清晰度。

12.The monopulse method allows for real-time measurement of angle.

该单脉冲方法允许实时测量角度。

作文

In the realm of radar technology, the term monopulse refers to a sophisticated method used for angle measurement. Unlike traditional pulse systems that require multiple transmissions to determine the direction of a target, monopulse systems utilize a single pulse to achieve accurate and instantaneous results. This innovation has significantly improved the efficiency and effectiveness of radar systems in various applications, including military operations, air traffic control, and meteorology.The fundamental principle behind monopulse technology lies in its ability to compare the received signals from multiple antennas. By sending out a single pulse and analyzing the phase difference between the signals received at different antenna elements, the system can accurately calculate the angle of arrival of the reflected signal. This allows for real-time tracking of moving objects with high precision, which is crucial in scenarios where split-second decisions are necessary.One of the most notable advantages of monopulse over conventional radar systems is its immunity to certain types of interference. In environments where multiple targets may be present, traditional systems can struggle to differentiate between them. However, the unique processing capabilities of monopulse enable it to isolate individual targets effectively, providing clearer and more reliable data to operators.Moreover, monopulse technology has been instrumental in enhancing the performance of missile guidance systems. By employing this technique, missiles can lock onto their targets more accurately, increasing the likelihood of successful engagements while reducing collateral damage. This level of precision is particularly important in modern warfare, where the stakes are high, and the cost of failure can be catastrophic.In addition to its military applications, monopulse has also found a place in civilian sectors. For instance, in air traffic control, the ability to quickly and accurately determine the position of aircraft is essential for maintaining safety in increasingly crowded skies. The implementation of monopulse systems has allowed air traffic controllers to manage flight paths more effectively, thereby reducing the risk of accidents.Meteorologists have also embraced monopulse technology for weather radar systems. The precise angle measurement capabilities allow for better tracking of storm systems, leading to improved forecasting and timely warnings for severe weather events. This application of monopulse not only enhances public safety but also aids in disaster preparedness and response efforts.As technology continues to advance, the future of monopulse systems looks promising. Ongoing research aims to further refine the capabilities of these systems, potentially integrating them with artificial intelligence and machine learning algorithms. Such advancements could lead to even greater accuracy and efficiency, opening up new possibilities for applications in various fields.In conclusion, the term monopulse encapsulates a critical advancement in radar technology that has transformed how we measure angles and track objects. Its applications span military, civilian, and meteorological domains, showcasing its versatility and importance. As we continue to explore the potential of monopulse systems, we can expect to see even more innovative uses that will enhance our understanding of the world around us and improve safety across various sectors.

在雷达技术领域，术语monopulse指的是一种用于角度测量的复杂方法。与传统脉冲系统需要多次传输以确定目标方向不同，monopulse系统利用单个脉冲来实现准确和瞬时的结果。这一创新显著提高了雷达系统在各种应用中的效率和有效性，包括军事行动、空中交通控制和气象学。monopulse技术的基本原理在于它能够比较来自多个天线的接收信号。通过发送一个脉冲并分析不同天线元件接收到的信号之间的相位差，系统可以准确计算反射信号的到达角度。这使得实时跟踪移动物体变得非常精确，这在需要快速决策的场景中至关重要。monopulse相较于传统雷达系统的一个显著优势是其对某些类型干扰的免疫能力。在多个目标可能存在的环境中，传统系统可能难以区分它们。然而，monopulse独特的处理能力使其能够有效地隔离单个目标，为操作人员提供更清晰和更可靠的数据。此外，monopulse技术在增强导弹制导系统的性能方面也发挥了重要作用。通过采用这一技术，导弹能够更准确地锁定目标，提高成功打击的可能性，同时减少附带损害。这种精确度在现代战争中尤为重要，因为失败的代价可能是灾难性的。除了军事应用，monopulse还在民用领域找到了立足之地。例如，在空中交通控制中，快速而准确地确定飞机位置对于维护日益拥挤的空域安全至关重要。monopulse系统的实施使空中交通控制员能够更有效地管理航线，从而降低事故风险。气象学家也开始采用monopulse技术用于气象雷达系统。精确的角度测量能力使得对风暴系统的跟踪变得更加出色，从而改善了天气预报和对严重天气事件的及时警报。这一monopulse的应用不仅增强了公众安全，还有助于灾害准备和响应工作。随着技术的不断进步，monopulse系统的未来前景看起来很有希望。持续的研究旨在进一步完善这些系统的能力，潜在地将其与人工智能和机器学习算法集成。这些进步可能会导致更大的准确性和效率，为各个领域的新应用打开新的可能性。总之，术语monopulse概括了雷达技术中的一个关键进展，改变了我们测量角度和跟踪物体的方式。它的应用跨越军事、民用和气象领域，展示了它的多样性和重要性。随着我们继续探索monopulse系统的潜力，我们可以期待看到更多创新的用途，这将增强我们对周围世界的理解，并提高各个行业的安全性。