beam riding missile

简明释义

驾束式导弹

英英释义

例句

1.The deployment of beam riding missiles 光束导引导弹 has changed the dynamics of modern warfare significantly.

光束导引导弹 beam riding missiles的部署显著改变了现代战争的动态。

2.The effectiveness of a beam riding missile 光束导引导弹 relies heavily on the precision of the guidance system.

一枚光束导引导弹 beam riding missile的有效性在很大程度上依赖于制导系统的精确性。

3.The military developed a new type of beam riding missile 光束导引导弹 that can accurately hit targets from long distances.

军方开发了一种新的光束导引导弹 beam riding missile，能够从远距离准确击中目标。

4.Engineers are working on enhancing the tracking capabilities of beam riding missiles 光束导引导弹 for better performance in combat.

工程师们正在努力提升光束导引导弹 beam riding missiles的跟踪能力，以便在战斗中获得更好的表现。

5.During the training exercise, soldiers practiced launching beam riding missiles 光束导引导弹 to improve their targeting skills.

在训练演习中，士兵们练习发射光束导引导弹 beam riding missiles以提高他们的瞄准技能。

作文

The development of missile technology has always been a topic of significant interest in military strategy and defense systems. Among the various types of missiles, the beam riding missile stands out due to its unique guidance system. A beam riding missile is a type of guided missile that follows a beam of energy emitted from a ground or airborne source. This technology allows the missile to maintain a precise trajectory towards its target, making it an effective weapon in modern warfare.To understand how a beam riding missile operates, one must first grasp the concept of 'beam riding.' In this context, 'beam' refers to the directed energy signal, which can be laser or radar-based. The missile is equipped with sensors that detect this beam and adjust its flight path accordingly. This method of guidance is advantageous because it minimizes the chances of interception by enemy defenses, as the missile is not independently seeking its target but rather following a predetermined path.Historically, beam riding missiles were developed during the Cold War, a period marked by intense competition between superpowers. The need for precision and reliability in missile technology led to innovations that improved the effectiveness of these weapons. For instance, the U.S. Navy's AGM-84 Harpoon missile employs a variant of this technology, allowing it to engage naval targets with remarkable accuracy.One of the key benefits of using a beam riding missile is its ability to hit moving targets. Unlike traditional missiles that rely on onboard guidance systems, a beam riding missile can adjust its course in real-time based on the position of the beam. This capability is particularly useful in naval combat scenarios where ships are constantly maneuvering to avoid enemy fire.However, there are also limitations to the beam riding missile technology. The reliance on a beam means that the missile's effectiveness can be compromised if the beam is obscured or disrupted by environmental factors such as weather conditions or electronic countermeasures deployed by the enemy. Consequently, while beam riding missiles offer significant advantages, they must be used in conjunction with other technologies to ensure successful operations.In recent years, advancements in technology have led to the development of more sophisticated beam riding missiles. These new systems incorporate enhanced guidance algorithms and advanced materials that improve their performance and survivability. As nations continue to invest in missile technology, it is likely that we will see further innovations in beam riding missile systems, making them even more formidable on the battlefield.In conclusion, the beam riding missile represents a fascinating aspect of modern military technology. Its unique guidance system allows for precise targeting and engagement of dynamic threats, making it a valuable asset in contemporary warfare. As technology continues to evolve, the future of beam riding missiles will undoubtedly play a crucial role in shaping military strategies and defense capabilities around the world.

导弹技术的发展一直是军事战略和防御系统中一个重要的话题。在各种类型的导弹中，波束骑乘导弹因其独特的制导系统而脱颖而出。波束骑乘导弹是一种跟随从地面或空中源发射的能量束的制导导弹。这项技术使导弹能够保持精确的轨迹朝向目标，从而在现代战争中成为一种有效的武器。要理解波束骑乘导弹的操作，首先必须掌握“波束骑乘”的概念。在这种情况下，“波束”指的是定向能量信号，可以是激光或雷达基础的。导弹配备有传感器，可以检测到这个波束，并相应地调整其飞行路径。这种制导方法的优点在于，它最小化了被敌方防御拦截的机会，因为导弹并不是独立寻求目标，而是沿着预定路径行进。历史上，波束骑乘导弹是在冷战期间开发的，这一时期是超级大国之间竞争激烈的时期。对导弹技术的精确性和可靠性的需求推动了创新，改善了这些武器的有效性。例如，美国海军的AGM-84哈泼导弹采用了这种技术的变种，使其能够以惊人的准确性攻击海上目标。使用波束骑乘导弹的一个关键好处是它能够打击移动目标。与依赖机载制导系统的传统导弹不同，波束骑乘导弹可以根据波束的位置实时调整其航向。这一能力在海战场景中尤为有用，因为舰艇不断机动以避开敌方火力。然而，波束骑乘导弹技术也存在局限性。对波束的依赖意味着，如果波束被环境因素如天气条件或敌方部署的电子干扰措施遮挡或干扰，导弹的有效性可能会受到影响。因此，尽管波束骑乘导弹提供了显著的优势，但必须与其他技术结合使用，以确保成功的作战。近年来，技术的进步导致了更复杂的波束骑乘导弹的发展。这些新系统结合了增强的制导算法和先进的材料，提高了它们的性能和生存能力。随着各国继续投资于导弹技术，我们可能会看到波束骑乘导弹系统的进一步创新，使它们在战场上变得更加可怕。总之，波束骑乘导弹代表了现代军事技术的一个迷人方面。其独特的制导系统允许精确定位和动态威胁的交战，使其成为当代战争中一种宝贵的资产。随着技术的不断发展，波束骑乘导弹的未来无疑将在塑造全球军事战略和防御能力方面发挥关键作用。