Denny-Brown stabilizer

简明释义

一种由陀螺仪控制船两侧鳍板的减摇装置

英英释义

例句

1.Using a Denny-Brown stabilizer can reduce the risk of capsizing during rough weather.

使用Denny-Brown稳定器可以减少在恶劣天气下翻覆的风险。

2.The yacht was equipped with a Denny-Brown stabilizer to enhance passenger comfort.

这艘游艇配备了Denny-Brown稳定器以增强乘客舒适度。

3.The engineer decided to use the Denny-Brown stabilizer for better control of the vessel's motion.

工程师决定使用Denny-Brown稳定器来更好地控制船只的运动。

4.The research focused on the effectiveness of the Denny-Brown stabilizer in turbulent waters.

研究集中在Denny-Brown稳定器在湍流水域中的有效性。

5.In simulations, the Denny-Brown stabilizer showed significant improvements in stability.

在模拟中，Denny-Brown稳定器显示出显著的稳定性改善。

作文

The field of engineering often presents us with complex challenges that require innovative solutions. One such solution is the Denny-Brown stabilizer, a crucial component in the realm of aerospace and mechanical engineering. Understanding this device not only enhances our knowledge of stabilization systems but also underscores the importance of precision in engineering applications. The Denny-Brown stabilizer is primarily used in the context of aircraft design, where stability and control are paramount for safe flight operations. It was developed by engineers who sought to address the issues related to oscillations and instability that can occur in various mechanical systems. The principle behind the Denny-Brown stabilizer lies in its ability to dampen unwanted motions. In aviation, for instance, an aircraft may experience turbulence or sudden changes in wind patterns that can lead to uncomfortable and potentially dangerous situations. The Denny-Brown stabilizer helps mitigate these effects by adjusting the control surfaces of the aircraft in real-time. This dynamic response is essential for maintaining a smooth flight experience and ensuring passenger safety.Moreover, the application of the Denny-Brown stabilizer extends beyond aviation. In marine engineering, similar stabilization systems are employed to enhance the performance of ships and submarines. These vessels often encounter rough seas, which can cause significant rolling and pitching. By utilizing the principles established by the Denny-Brown stabilizer, engineers can design systems that counteract these movements, leading to improved comfort and safety for those on board.The significance of the Denny-Brown stabilizer is also evident in the field of robotics. As robots become increasingly integrated into our daily lives, their ability to maintain balance and stability becomes crucial. The algorithms inspired by the Denny-Brown stabilizer can be implemented in robotic systems to enhance their performance in dynamic environments. For example, humanoid robots that need to walk or navigate uneven terrain benefit from stabilization techniques derived from this stabilizer, allowing them to perform tasks with greater efficiency and reliability.In conclusion, the Denny-Brown stabilizer represents a vital advancement in the field of engineering, showcasing how innovative solutions can address complex problems across various industries. Its applications in aerospace, marine engineering, and robotics illustrate the versatility and importance of stabilization systems. As technology continues to evolve, the principles behind the Denny-Brown stabilizer will likely inspire further innovations, paving the way for safer and more efficient machines. Understanding this stabilizer not only enriches our comprehension of engineering dynamics but also highlights the ongoing quest for precision and reliability in design and functionality.

工程领域常常给我们带来复杂的挑战，这些挑战需要创新的解决方案。其中一个解决方案就是Denny-Brown 稳定器，这是航空航天和机械工程领域中的一个关键组件。理解这个设备不仅增强了我们对稳定化系统的认识，还强调了精确性在工程应用中的重要性。Denny-Brown 稳定器主要用于飞机设计的背景下，在安全飞行操作中，稳定性和控制是至关重要的。它是由工程师开发的，他们试图解决在各种机械系统中可能出现的振荡和不稳定性问题。Denny-Brown 稳定器背后的原理在于其抑制不必要运动的能力。例如，在航空领域，一架飞机可能会遭遇湍流或突如其来的风向变化，这可能导致不适和潜在的危险情况。Denny-Brown 稳定器通过实时调整飞机的控制面来减轻这些影响。这种动态响应对于保持平稳的飞行体验和确保乘客安全至关重要。此外，Denny-Brown 稳定器的应用超越了航空。在海洋工程中，类似的稳定系统被用来提高船舶和潜艇的性能。这些船只经常会遇到波涛汹涌的海洋，这可能导致显著的滚动和俯仰。通过利用Denny-Brown 稳定器所建立的原理，工程师可以设计出抵消这些运动的系统，从而提高船上人员的舒适度和安全性。Denny-Brown 稳定器的重要性在机器人领域也显而易见。随着机器人越来越多地融入我们的日常生活，它们保持平衡和稳定的能力变得至关重要。受Denny-Brown 稳定器启发的算法可以应用于机器人系统，以增强它们在动态环境中的性能。例如，需要行走或在不平坦地形中导航的人形机器人受益于源自该稳定器的稳定化技术，使它们能够更高效、可靠地执行任务。总之，Denny-Brown 稳定器代表了工程领域的重要进展，展示了创新解决方案如何解决各个行业的复杂问题。它在航空、海洋工程和机器人领域的应用说明了稳定系统的多样性和重要性。随着技术的不断发展，Denny-Brown 稳定器背后的原理可能会激发进一步的创新，为更安全、更高效的机器铺平道路。理解这一稳定器不仅丰富了我们对工程动力学的理解，也突显了在设计和功能中对精确性和可靠性的持续追求。