electronically scanned stacked beam radar

简明释义

电子扫描多波束雷达

英英释义

例句

1.Research institutions are developing electronically scanned stacked beam radar technology for autonomous vehicles.

研究机构正在开发用于自动驾驶汽车的电子扫描叠束雷达技术。

2.Naval vessels are equipped with electronically scanned stacked beam radar for enhanced surveillance capabilities.

海军舰艇配备有电子扫描叠束雷达以增强监视能力。

3.The military uses electronically scanned stacked beam radar for precise target tracking.

军方使用电子扫描叠束雷达进行精确目标跟踪。

4.The new weather monitoring system incorporates electronically scanned stacked beam radar to improve storm detection.

新的天气监测系统结合了电子扫描叠束雷达以提高风暴检测能力。

5.Air traffic control relies on electronically scanned stacked beam radar to manage aircraft movements efficiently.

空中交通控制依靠电子扫描叠束雷达高效管理飞机的移动。

作文

In the realm of modern technology, radar systems have undergone significant advancements, particularly with the introduction of the electronically scanned stacked beam radar (电子扫描叠束雷达). This innovative radar technology has revolutionized various fields, including aviation, maritime navigation, and military applications. The electronically scanned stacked beam radar utilizes electronic means to steer its beams, allowing for rapid scanning of vast areas without the mechanical movement traditionally associated with older radar systems.One of the most notable features of the electronically scanned stacked beam radar is its ability to create multiple beams simultaneously. This capability stems from the use of phased array technology, where individual antenna elements can be controlled electronically to form different beams at various angles. As a result, the radar can track multiple targets in real-time, enhancing situational awareness and response times.In aviation, for instance, the electronically scanned stacked beam radar plays a crucial role in air traffic control and collision avoidance systems. By providing continuous updates on aircraft positions, it significantly reduces the risk of mid-air collisions. Additionally, the radar's ability to detect weather patterns allows pilots to navigate safely through adverse conditions, ensuring passenger safety and comfort.Maritime applications also benefit immensely from this technology. Ships equipped with electronically scanned stacked beam radar can monitor their surroundings more effectively, detecting other vessels, obstacles, and even potential threats in real-time. This capability is particularly important in busy shipping lanes, where the risk of collisions is high. Furthermore, the radar can assist in search and rescue operations by identifying distress signals and locating missing vessels quickly.Military applications of the electronically scanned stacked beam radar are perhaps the most critical. Modern defense systems rely on advanced radar technology to detect incoming threats, such as missiles and enemy aircraft. The ability to track multiple targets simultaneously gives military operators a strategic advantage, allowing them to respond swiftly to potential attacks. Moreover, the radar's electronic scanning capabilities make it less susceptible to jamming and other forms of electronic warfare, ensuring reliable performance in combat situations.Despite its numerous advantages, the implementation of electronically scanned stacked beam radar is not without challenges. The technology requires sophisticated algorithms and processing power to manage the data generated by multiple beams. Additionally, the cost of developing and deploying these systems can be substantial, which may limit their accessibility to smaller organizations or nations.In conclusion, the electronically scanned stacked beam radar (电子扫描叠束雷达) represents a significant leap forward in radar technology. Its ability to scan large areas rapidly and track multiple targets simultaneously has transformed various industries, enhancing safety and operational efficiency. As technology continues to evolve, we can expect further improvements in radar systems, making them even more integral to our daily lives and national security.

在现代技术领域，雷达系统经历了显著的进步，尤其是随着电子扫描叠束雷达（electronically scanned stacked beam radar）的引入。这项创新的雷达技术彻底改变了航空、海洋导航和军事应用等多个领域。电子扫描叠束雷达利用电子手段来引导其波束，允许快速扫描广阔区域，而不需要传统雷达系统所需的机械移动。电子扫描叠束雷达最显著的特点之一是其能够同时创建多个波束。这一能力源于相控阵列技术的使用，其中单个天线元件可以通过电子方式控制，以形成不同角度的波束。因此，雷达可以实时跟踪多个目标，增强态势感知和响应时间。例如，在航空领域，电子扫描叠束雷达在空中交通控制和防撞系统中发挥着至关重要的作用。通过提供对飞机位置的持续更新，它显著降低了空中碰撞的风险。此外，雷达能够检测天气模式，使飞行员能够安全地穿越恶劣条件，确保乘客的安全和舒适。海洋应用也从该技术中受益匪浅。配备有电子扫描叠束雷达的船只可以更有效地监测其周围环境，实时检测其他船只、障碍物甚至潜在威胁。这一能力在繁忙的航运通道中特别重要，因为碰撞的风险很高。此外，雷达可以通过快速识别求救信号和定位失踪船只来协助搜救行动。电子扫描叠束雷达的军事应用可能是最为关键的。现代防御系统依赖于先进的雷达技术来检测来袭威胁，如导弹和敌机。能够同时跟踪多个目标为军事操作员提供了战略优势，使他们能够迅速应对潜在攻击。此外，雷达的电子扫描能力使其对干扰和其他形式的电子战更加不敏感，确保在战斗情况下的可靠性能。尽管具有众多优点，但实施电子扫描叠束雷达并非没有挑战。这项技术需要复杂的算法和处理能力来管理由多个波束生成的数据。此外，开发和部署这些系统的成本可能相当可观，这可能限制了它们对较小组织或国家的可及性。总之，电子扫描叠束雷达（electronically scanned stacked beam radar）代表了雷达技术的重要飞跃。其快速扫描大面积区域和同时跟踪多个目标的能力，已经改变了各个行业，提高了安全性和操作效率。随着技术的不断发展，我们可以期待雷达系统的进一步改进，使其在我们日常生活和国家安全中变得更加不可或缺。