marine aided inertial navigation system

简明释义

船舶综合惯性导航系统航海惯性导航系统

英英释义

例句

1.The autonomous underwater vehicle was equipped with a marine aided inertial navigation system for enhanced navigational accuracy.

这款自主水下无人机装备了海洋辅助惯性导航系统以增强导航精度。

2.In naval operations, the marine aided inertial navigation system provides reliable navigation data even in GPS-denied environments.

在海军行动中，海洋辅助惯性导航系统即使在无GPS环境中也能提供可靠的导航数据。

3.The fishing fleet upgraded to a marine aided inertial navigation system to improve their route planning and efficiency.

渔船队升级为海洋辅助惯性导航系统以提高航线规划和效率。

4.The research vessel utilized a marine aided inertial navigation system to ensure accurate positioning during deep-sea exploration.

这艘研究船利用海洋辅助惯性导航系统确保在深海探测期间的准确定位。

5.Coastal surveyors rely on a marine aided inertial navigation system for precise mapping of underwater features.

沿海测量员依靠海洋辅助惯性导航系统精确绘制水下特征的地图。

作文

In the realm of modern navigation, the term marine aided inertial navigation system has become increasingly significant. This advanced technology plays a crucial role in ensuring accurate positioning and navigation for various marine vessels, including submarines, cargo ships, and recreational boats. The integration of inertial navigation systems (INS) with external aids enhances the overall reliability and precision of maritime navigation.The marine aided inertial navigation system combines traditional inertial navigation principles with additional data from external sources, such as GPS and sonar. Inertial navigation relies on sensors that measure the vessel's acceleration and rotation to calculate its position over time. However, this method can accumulate errors due to minor inaccuracies in the sensors and environmental factors. To counteract these limitations, the marine aided inertial navigation system incorporates data from other navigational aids to provide corrections, thus improving accuracy.One of the primary advantages of using a marine aided inertial navigation system is its ability to function effectively in environments where GPS signals may be weak or unavailable, such as underwater or in densely populated urban areas. Submarines, for example, rely heavily on this technology to navigate stealthily while submerged. By utilizing inertial navigation along with other sensors, submarines can maintain their course without exposing themselves to potential detection.Moreover, the marine aided inertial navigation system is not limited to military applications. Commercial shipping companies also benefit significantly from this technology. With the increasing complexity of global shipping routes and the need for timely deliveries, accurate navigation is essential. The integration of INS with marine aids allows for real-time adjustments to be made, ensuring that vessels remain on course even in challenging conditions.The development of the marine aided inertial navigation system has also led to innovations in automation and autonomous navigation. As technology advances, there is a growing interest in unmanned vessels for various applications, including research, surveillance, and transportation. These autonomous systems rely heavily on accurate navigation to operate safely and efficiently. The marine aided inertial navigation system provides the necessary precision for these vessels to navigate complex environments without human intervention.In conclusion, the marine aided inertial navigation system represents a significant advancement in maritime navigation technology. By combining inertial navigation with external aids, it enhances the accuracy and reliability of positioning for various marine applications. As the demand for efficient and precise navigation continues to grow, the importance of technologies like the marine aided inertial navigation system will only increase, shaping the future of maritime operations and exploration.

在现代导航领域，术语海洋辅助惯性导航系统变得越来越重要。这项先进技术在确保各种海洋船只（包括潜艇、货船和休闲船）进行准确定位和导航方面发挥着关键作用。惯性导航系统（INS）与外部辅助设备的整合增强了海洋导航的整体可靠性和精确性。海洋辅助惯性导航系统将传统的惯性导航原理与来自外部来源的数据（如GPS和声纳）结合在一起。惯性导航依赖于测量船只加速度和旋转的传感器来计算其随时间变化的位置。然而，由于传感器的微小不准确性和环境因素，这种方法可能会累积误差。为了抵消这些限制，海洋辅助惯性导航系统结合了其他导航辅助设备的数据，以提供修正，从而提高精度。使用海洋辅助惯性导航系统的主要优点之一是它能够在GPS信号可能较弱或不可用的环境中有效运行，例如在水下或人口稠密的城市地区。潜艇例如，严重依赖这项技术在水下隐秘导航。通过利用惯性导航和其他传感器，潜艇可以在不暴露自身的情况下保持航向。此外，海洋辅助惯性导航系统并不仅限于军事应用。商业航运公司也从这项技术中受益匪浅。随着全球航运路线日益复杂以及及时交付的需求增加，准确的导航至关重要。INS与海洋辅助设备的整合使实时调整成为可能，确保船只在恶劣条件下仍能保持航向。海洋辅助惯性导航系统的发展还催生了自动化和自主导航的创新。随着技术的进步，对无人船的兴趣日益增长，用于各种应用，包括研究、监视和运输。这些自主系统在安全和高效地操作时高度依赖准确的导航。海洋辅助惯性导航系统为这些船只在没有人工干预的情况下导航复杂环境提供了必要的精度。总之，海洋辅助惯性导航系统代表了海洋导航技术的一项重大进步。通过将惯性导航与外部辅助设备相结合，它增强了各种海洋应用的定位精度和可靠性。随着对高效和精确导航的需求不断增长，像海洋辅助惯性导航系统这样的技术的重要性只会增加，塑造海洋作业和探索的未来。