target lock-on

简明释义

目标跟踪

英英释义

例句

1.The sniper waited for the perfect moment to establish target lock-on on the enemy.

狙击手等待着完美的时机来建立对敌人的目标锁定。

2.The fighter jet achieved target lock-on before firing its missiles.

战斗机在发射导弹之前达成了目标锁定。

3.In video games, achieving target lock-on allows players to focus their attacks on a specific enemy.

在视频游戏中，实现目标锁定使玩家能够将攻击集中在特定敌人身上。

4.Once the drone has a target lock-on, it can autonomously navigate to the target.

一旦无人机获得目标锁定，它可以自主导航到目标。

5.The missile system requires a brief moment to establish target lock-on before launch.

导弹系统在发射前需要短暂的时间来建立目标锁定。

作文

In the realm of modern technology, particularly in military and aviation applications, the term target lock-on refers to the process of acquiring and maintaining a target's position for tracking or engagement purposes. This concept is critical in enhancing the accuracy and effectiveness of various systems, such as guided missiles, drones, and advanced fighter jets. Understanding how target lock-on works can provide valuable insights into the intricacies of modern warfare and the technological advancements that support it.The process of target lock-on begins with the detection of a target, which may be an enemy aircraft, a ground vehicle, or any other object of interest. Advanced sensors and radar systems are employed to locate and identify the target. Once the target is detected, the system must calculate its trajectory, speed, and other relevant parameters. This is where the concept of target lock-on becomes critical. The system uses algorithms and data analysis to ensure that it can keep track of the target's movements accurately.Once the calculations are complete, the system initiates the target lock-on phase. This involves focusing the targeting system on the identified target, allowing for precise tracking. In military applications, this is vital for ensuring that munitions can be deployed effectively. For example, a missile equipped with target lock-on capabilities can follow a moving target even if it attempts to evade detection. This is achieved through continuous updates from the tracking system, which adjusts the missile's flight path accordingly.Moreover, target lock-on is not limited to offensive operations. It also plays a significant role in defensive measures. For instance, air defense systems utilize target lock-on technology to identify incoming threats and engage them before they reach their intended targets. This proactive approach is essential in modern combat scenarios, where the speed of engagement can determine the outcome of a battle.The implications of target lock-on extend beyond military applications. In civilian contexts, similar technology is used in various fields, including autonomous vehicles and surveillance systems. For example, self-driving cars utilize target lock-on principles to detect and track obstacles in their environment, ensuring safe navigation. This technology enables vehicles to respond dynamically to changes in their surroundings, significantly enhancing safety and efficiency.However, the reliance on target lock-on technology raises ethical and strategic questions. As military capabilities become more advanced, the potential for misuse or unintended consequences increases. The ability to engage targets with high precision means that decisions made by operators can have profound effects, raising concerns about accountability and the rules of engagement in warfare.In conclusion, the term target lock-on encapsulates a crucial aspect of modern technology, particularly in military and civilian applications. Its importance in tracking and engaging targets cannot be overstated, as it enhances both offensive and defensive capabilities. As technology continues to evolve, understanding the implications of target lock-on will be essential in navigating the complexities of modern warfare and the ethical considerations that accompany it.

在现代科技领域，尤其是在军事和航空应用中，术语目标锁定指的是获取和保持目标位置以进行追踪或打击的过程。这个概念在提高各种系统的准确性和有效性方面至关重要，例如制导导弹、无人机和先进战斗机。理解目标锁定的工作原理可以为我们提供关于现代战争复杂性和支持其发展的技术进步的宝贵见解。目标锁定的过程始于对目标的检测，这可能是敌方飞机、地面车辆或任何其他感兴趣的物体。先进的传感器和雷达系统被用来定位和识别目标。一旦目标被检测到，系统必须计算其轨迹、速度和其他相关参数。这就是目标锁定概念变得至关重要的地方。系统利用算法和数据分析确保能够准确跟踪目标的运动。一旦计算完成，系统将启动目标锁定阶段。这涉及将瞄准系统集中在已识别的目标上，从而实现精确跟踪。在军事应用中，这对于确保弹药能够有效部署至关重要。例如，配备有目标锁定能力的导弹可以跟踪移动目标，即使目标试图逃避检测。这是通过跟踪系统的连续更新来实现的，该系统根据需要调整导弹的飞行路径。此外，目标锁定不仅限于进攻操作。它在防御措施中也发挥着重要作用。例如，空中防御系统利用目标锁定技术识别来袭威胁，并在它们达到预定目标之前对其进行打击。这种主动的方法在现代战斗场景中至关重要，因为交战的速度可以决定战斗的结果。目标锁定的影响超出了军事应用。在民用领域，类似的技术被用于多个领域，包括自动驾驶汽车和监控系统。例如，自动驾驶汽车利用目标锁定原理来检测和跟踪其环境中的障碍物，从而确保安全导航。这项技术使车辆能够动态响应周围环境的变化，显著提高安全性和效率。然而，依赖于目标锁定技术引发了伦理和战略问题。随着军事能力的不断增强，误用或意外后果的潜力也在增加。能够高精度地打击目标意味着操作员做出的决策可能产生深远的影响，这引发了关于问责制和战争交战规则的担忧。总之，术语目标锁定概括了现代技术，特别是在军事和民用应用中的一个关键方面。它在跟踪和打击目标方面的重要性不容小觑，因为它增强了进攻和防御能力。随着技术的不断发展，理解目标锁定的影响将对驾驭现代战争的复杂性及其伴随的伦理考量至关重要。