infrared guidance

简明释义

红外线制导

英英释义

例句

1.During training exercises, we practiced using infrared guidance systems for target acquisition.

在训练演习中，我们练习使用红外引导系统进行目标获取。

2.In night operations, soldiers rely on infrared guidance for navigation and targeting.

在夜间行动中，士兵依靠红外引导进行导航和目标锁定。

3.Drones equipped with infrared guidance can operate effectively in low visibility conditions.

配备有红外引导的无人机可以在低能见度条件下有效运作。

4.The missile system utilizes infrared guidance to accurately target enemy installations.

该导弹系统利用红外引导准确瞄准敌方设施。

5.The technology of infrared guidance has significantly improved the accuracy of modern weapons.

红外引导技术显著提高了现代武器的准确性。

作文

In modern warfare and technological advancements, the term infrared guidance plays a crucial role in ensuring precision and effectiveness. Infrared guidance refers to a method of directing missiles or other projectiles using infrared technology, which detects and tracks heat emitted by targets. This innovative approach has transformed military operations, allowing for greater accuracy and reduced collateral damage. The ability to lock onto a target's heat signature means that even in low-visibility conditions, such as at night or during adverse weather, military forces can engage effectively.The principle behind infrared guidance is relatively straightforward. Infrared sensors are designed to detect infrared radiation, which is emitted by all objects with a temperature above absolute zero. In a military context, this typically includes vehicles, aircraft, and even personnel, making them visible to missiles equipped with infrared guidance systems. Once the missile is launched, it homes in on the heat signature of its target, adjusting its flight path in real-time to ensure a direct hit.One of the significant advantages of infrared guidance is its ability to operate effectively in environments where visual targeting systems fail. Traditional optical systems may struggle in smoke, fog, or darkness, but infrared guidance remains operational. This capability is vital for modern militaries that must adapt to various combat situations. Moreover, infrared guidance enhances the survivability of the launching platform since it allows for standoff engagement, meaning the missile can be fired from a considerable distance, reducing the risk to personnel and equipment.However, like any technology, infrared guidance also has its limitations. One notable challenge is the potential for countermeasures. Adversaries can employ tactics such as decoys or thermal masking to confuse or mislead infrared guidance systems. For instance, creating false heat signatures or employing materials that absorb infrared radiation can significantly reduce the effectiveness of these guided systems. As a result, continuous research and development are necessary to enhance the resilience of infrared guidance technologies against such countermeasures.Beyond military applications, infrared guidance technology has found its way into various civilian sectors as well. For example, it is used in search and rescue operations, where locating individuals in distress is paramount. The ability to detect body heat through thick vegetation or rubble can save lives in emergencies. Additionally, infrared guidance is utilized in wildlife monitoring, allowing researchers to track and study animals without disturbing their natural habitats.In conclusion, infrared guidance represents a significant advancement in both military and civilian applications. Its ability to provide accurate targeting in challenging conditions underscores its importance in modern technology. As we move forward, the continued evolution of infrared guidance systems will likely lead to even more innovative applications, enhancing our capabilities in various fields. Understanding and mastering infrared guidance is essential for those involved in defense and safety technologies, as it continues to shape the future of how we engage with our environment and respond to threats.

在现代战争和技术进步中，短语红外制导扮演着至关重要的角色，确保精确性和有效性。红外制导是指使用红外技术引导导弹或其他弹药的方法，该技术可以检测并跟踪目标发出的热量。这种创新的方法已改变了军事行动，使得更高的准确性和减少附带损害成为可能。能够锁定目标的热信号意味着即使在低能见度条件下，例如夜间或恶劣天气中，军队也能够有效地进行打击。红外制导背后的原理相对简单。红外传感器旨在检测红外辐射，所有温度高于绝对零度的物体都会发出这种辐射。在军事背景下，这通常包括车辆、飞机甚至人员，使它们对配备有红外制导系统的导弹可见。一旦导弹发射，它就会锁定目标的热信号，实时调整飞行路径以确保直接命中。红外制导的一个重大优势是它能够在视觉目标系统失效的环境中有效操作。传统的光学系统可能在烟雾、雾霾或黑暗中挣扎，但红外制导依然可以正常工作。这种能力对于必须适应各种战斗情况的现代军队至关重要。此外，红外制导增强了发射平台的生存能力，因为它允许远程打击，这意味着导弹可以从相当远的距离发射，从而降低对人员和设备的风险。然而，像任何技术一样，红外制导也有其局限性。一个显著的挑战是潜在的对抗措施。对手可以采用诱饵或热掩蔽等战术来混淆或误导红外制导系统。例如，制造虚假的热信号或使用吸收红外辐射的材料可以显著降低这些制导系统的有效性。因此，持续的研究和开发是必要的，以增强红外制导技术对这些对抗措施的抵御能力。除了军事应用之外，红外制导技术还在各种民用领域找到了应用。例如，它用于搜索和救援行动，在这些行动中，定位处于困境中的个人至关重要。通过厚厚的植被或废墟检测体温的能力可以在紧急情况下拯救生命。此外，红外制导还用于野生动物监测，使研究人员能够追踪和研究动物，而不干扰它们的自然栖息地。总之，红外制导代表了军事和民用应用的重要进展。它在挑战条件下提供准确打击的能力突显了其在现代技术中的重要性。随着我们向前发展，红外制导系统的持续演变可能会导致更多创新应用，增强我们在各个领域的能力。理解和掌握红外制导对参与国防和安全技术的人士至关重要，因为它继续塑造我们与环境互动和应对威胁的未来。