automatic fog control

简明释义

雾航自动控制

英英释义

例句

1.The new smart home technology includes automatic fog control for outdoor lighting.

新的智能家居技术包括户外照明的自动雾霾控制功能。

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

这款新车配备了自动雾霾控制功能，帮助在恶劣天气条件下保持清晰的视野。

3.With automatic fog control, the system adjusts the headlights to cut through fog effectively.

通过自动雾霾控制，系统能够有效调整前灯以穿透雾霭。

4.In coastal areas, automatic fog control systems are essential for guiding ships safely.

在沿海地区，自动雾霾控制系统对安全引导船只至关重要。

5.Many modern aircraft utilize automatic fog control to enhance safety during landing.

许多现代飞机利用自动雾霾控制来提高着陆时的安全性。

作文

In recent years, the advancement of technology has led to significant improvements in various fields, including transportation, agriculture, and environmental management. One of the most intriguing developments is the implementation of automatic fog control, which refers to systems designed to manage and mitigate fog conditions automatically. This technology is particularly essential in areas where fog can severely impact visibility, leading to dangerous situations for drivers and pedestrians alike. 自动雾控制的出现，正是为了应对这一挑战。 Fog is a natural weather phenomenon that occurs when water vapor condenses into tiny droplets suspended in the air. This can reduce visibility to dangerously low levels, making travel hazardous. Traditional methods of dealing with fog involve manual interventions, such as deploying road signs warning drivers of low visibility or using lights to enhance visibility. However, these methods are often reactive rather than proactive. This is where automatic fog control comes into play. 自动雾控制系统可以在雾霾条件出现之前或之际，自动采取措施以减少其影响。 The technology behind automatic fog control utilizes sensors and data analytics to detect fog formation. These sensors can monitor weather conditions, humidity levels, and visibility metrics in real-time. Once fog is detected, the system can activate various responses, such as turning on warning lights, adjusting traffic signals, or even deploying fog dispersal techniques. For instance, some advanced systems use specialized equipment to disperse fog particles, thus improving visibility on roadways. 自动雾控制的这种能力可以显著提高行车安全性，减少交通事故的发生率。 Moreover, automatic fog control is not limited to roadways. It can also be applied in airports to enhance flight safety. Fog can lead to flight delays and cancellations, causing significant disruptions. By implementing automatic fog control systems at airports, authorities can ensure that runways and taxiways remain safe for aircraft, thereby improving overall operational efficiency. This not only benefits airlines but also enhances passenger experiences by reducing travel delays. 自动雾控制在航空领域的应用，显示了其广泛的适用性和重要性。 In addition to transportation, automatic fog control can be beneficial in agricultural settings. Farmers often face challenges related to fog, such as reduced sunlight exposure and increased humidity, which can affect crop yields. By utilizing automatic fog control systems, farmers can monitor fog conditions and make informed decisions about irrigation and harvesting schedules. This proactive approach helps in maximizing agricultural productivity while minimizing losses associated with adverse weather conditions. 自动雾控制在农业中的应用，展示了其在环境管理方面的潜力。 In conclusion, the development of automatic fog control technology represents a significant step forward in our ability to manage fog-related challenges. Whether it is enhancing road safety, improving airport operations, or supporting agricultural practices, this innovative solution demonstrates the power of technology in addressing environmental issues. As we continue to advance in this field, the potential applications for automatic fog control will only expand, offering new opportunities for safety and efficiency across various sectors. The future looks promising as we embrace these technological advancements to create a safer and more efficient world. 自动雾控制的未来值得我们期待。

近年来，科技的进步在交通、农业和环境管理等多个领域带来了显著改善。其中一个最引人注目的发展就是实施自动雾控制，即旨在自动管理和减轻雾霭条件的系统。这项技术在雾霭可能严重影响能见度的地区尤为重要，这会导致驾驶者和行人面临危险的情况。自动雾控制的出现，正是为了应对这一挑战。 雾是一种自然天气现象，当水蒸气凝结成悬浮在空气中的微小水滴时就会形成。这会将能见度降低到危险的低水平，使得出行变得危险。传统的雾霭处理方法主要依赖人工干预，例如设置警告标志提醒驾驶者注意低能见度或使用灯光来增强能见度。然而，这些方法通常是被动的，而非主动的。这就是自动雾控制发挥作用的地方。自动雾控制系统可以在雾霾条件出现之前或之际，自动采取措施以减少其影响。 自动雾控制背后的技术利用传感器和数据分析来检测雾的形成。这些传感器能够实时监测天气条件、湿度水平和能见度指标。一旦检测到雾，系统可以启动各种响应措施，例如打开警示灯、调整交通信号，甚至部署雾霾消散技术。例如，一些先进的系统使用专门设备来分散雾粒，从而改善道路能见度。自动雾控制的这种能力可以显著提高行车安全性，减少交通事故发生的几率。 此外，自动雾控制不仅限于公路，它也可以应用于机场以增强飞行安全。雾霭会导致航班延误和取消，造成重大干扰。通过在机场实施自动雾控制系统，当局可以确保跑道和滑行道对飞机保持安全，从而提高整体运营效率。这不仅有利于航空公司，还有助于改善乘客的出行体验，减少旅行延误。自动雾控制在航空领域的应用，显示了其广泛的适用性和重要性。 除了交通，自动雾控制在农业环境中也能发挥重要作用。农民常常面临与雾霾相关的挑战，例如阳光照射减少和湿度增加，这会影响作物产量。通过利用自动雾控制系统，农民可以监测雾霭条件，并对灌溉和收获时间做出明智的决策。这种主动的方法有助于最大化农业生产力，同时将不利天气条件造成的损失降到最低。自动雾控制在农业中的应用，展示了其在环境管理方面的潜力。 总之，自动雾控制技术的发展代表了我们在管理与雾霭相关的挑战方面向前迈出了重要一步。无论是提升道路安全、改善机场运营，还是支持农业实践，这一创新解决方案都展示了科技在应对环境问题上的力量。随着我们在这一领域的不断进步，自动雾控制的潜在应用只会扩大，为各个行业的安全和效率提供新的机会。随着我们接受这些技术进步，未来看起来充满希望，我们期待着创造一个更安全、更高效的世界。