automatic fog control

简明释义

雾航自动控制器

英英释义

例句

1.Our latest model of glasses comes with automatic fog control technology, making them ideal for athletes.

我们最新款的眼镜配备了自动雾气控制技术，非常适合运动员使用。

2.The new car model features automatic fog control, ensuring clear visibility in adverse weather conditions.

这款新车型号配备了自动雾气控制功能，确保在恶劣天气条件下视野清晰。

3.The automatic fog control feature in the bathroom helps maintain a clear mirror after a hot shower.

浴室中的自动雾气控制功能有助于在热水淋浴后保持镜子清晰。

4.With automatic fog control, the smart home system can adjust the air circulation to prevent fogging on windows.

通过自动雾气控制，智能家居系统可以调节空气循环，防止窗户起雾。

5.The automatic fog control system in this drone allows it to operate effectively in low visibility conditions.

这款无人机的自动雾气控制系统使其能够在能见度低的情况下有效操作。

作文

Fog can be a significant issue in various environments, particularly in transportation and aviation. When visibility is reduced due to fog, it poses a risk to safety and can lead to accidents. Therefore, implementing effective measures to manage fog is crucial. One innovative solution that has emerged in recent years is automatic fog control, which refers to the use of advanced technologies to detect and mitigate the effects of fog automatically. This system can significantly improve visibility and safety in critical areas such as airports, highways, and maritime operations.The concept of automatic fog control involves the integration of sensors, cameras, and weather data to monitor fog conditions in real-time. These systems can analyze the density of fog and its impact on visibility. Once the fog reaches a certain threshold, the system can activate various countermeasures. For example, in airports, automatic fog control can trigger the activation of runway lights and other visual aids to assist pilots during takeoff and landing. This proactive approach helps ensure that flights can operate safely even in adverse weather conditions.Moreover, automatic fog control can also be applied to roadways. By utilizing sensors embedded in the road surface, authorities can detect fog density and adjust traffic signals and signage accordingly. This capability allows for timely warnings to drivers, encouraging them to reduce speed and maintain safe distances from other vehicles. As a result, the chances of accidents caused by low visibility are significantly reduced.In maritime contexts, automatic fog control systems can aid in navigation by providing real-time updates to ships about fog conditions in their vicinity. This information can be relayed to captains through onboard systems, allowing them to make informed decisions about their routes and speeds. Additionally, foghorns and other auditory signals can be activated automatically when fog is detected, ensuring that vessels remain aware of their surroundings even when visibility is compromised.The benefits of automatic fog control extend beyond just safety; they also contribute to operational efficiency. By minimizing delays in transportation due to fog-related issues, airlines, shipping companies, and road authorities can enhance their service delivery and maintain schedules. This technology ultimately leads to a more reliable transportation network, which is essential for economic growth and public confidence.Despite the advantages, the implementation of automatic fog control systems does come with challenges. The initial costs of installing and maintaining such advanced technology can be high. Additionally, there may be concerns regarding the reliability of the systems in extreme weather conditions. However, as technology continues to advance, these concerns are likely to diminish, making automatic fog control a viable solution for many industries.In conclusion, automatic fog control represents a significant advancement in managing fog-related challenges across various sectors. By leveraging technology to enhance visibility and safety, we can reduce the risks associated with fog and improve overall transportation efficiency. As we move forward, investing in such innovative solutions will be vital in ensuring the safety and reliability of our transportation systems, ultimately benefiting society as a whole.

雾在各种环境中，尤其是在交通和航空领域，可能是一个重大问题。当能见度因雾而降低时，会对安全构成风险，并可能导致事故。因此，实施有效的措施来管理雾是至关重要的。近年来出现的一种创新解决方案是自动雾控制，它指的是利用先进技术自动检测和减轻雾的影响。该系统可以显著改善关键区域（如机场、高速公路和海事操作）的能见度和安全性。自动雾控制的概念涉及传感器、摄像头和天气数据的集成，以实时监测雾的条件。这些系统可以分析雾的密度及其对能见度的影响。一旦雾达到某个阈值，系统可以激活各种对策。例如，在机场，自动雾控制可以触发跑道灯和其他视觉辅助设备的激活，以协助飞行员进行起飞和着陆。这种主动的方法有助于确保即使在恶劣天气条件下，航班也能安全运行。此外，自动雾控制还可以应用于道路。通过利用嵌入路面中的传感器，当局可以检测雾的密度并相应地调整交通信号和标志。这种能力允许及时向司机发出警告，鼓励他们降低速度并与其他车辆保持安全距离。因此，因能见度低而导致的事故几率显著降低。在海事环境中，自动雾控制系统可以通过提供实时更新有关船只周围雾的条件来帮助导航。这些信息可以通过船上系统传递给船长，使他们能够就航线和速度做出明智的决定。此外，当检测到雾时，可以自动激活雾角和其他听觉信号，确保船只在能见度受限时仍然意识到周围环境。自动雾控制的好处不仅限于安全；它们还促进了运营效率。通过减少因雾相关问题导致的运输延误，航空公司、航运公司和道路当局可以提高服务质量并维持时间表。这项技术最终导致了更可靠的运输网络，这对于经济增长和公众信心至关重要。尽管有这些优势，实施自动雾控制系统仍面临挑战。安装和维护这种先进技术的初始成本可能很高。此外，对于系统在极端天气条件下的可靠性可能会有所担忧。然而，随着技术的不断进步，这些担忧可能会减弱，使自动雾控制成为许多行业的可行解决方案。总之，自动雾控制代表了在各个领域管理雾相关挑战的重要进展。通过利用技术来增强能见度和安全性，我们可以减少与雾相关的风险，提高整体运输效率。随着我们向前发展，投资于这些创新解决方案对于确保我们运输系统的安全和可靠至关重要，最终将惠及整个社会。