ship trajectory

简明释义

航迹

英英释义

例句

1.The navigation system calculates the ship trajectory to ensure safe passage through the narrow strait.

导航系统计算船舶轨迹以确保安全通过狭窄的海峡。

2.The software provides real-time updates on the ship trajectory during the voyage.

该软件在航行期间提供关于船舶轨迹的实时更新。

3.The captain adjusted the course based on the projected ship trajectory to avoid bad weather.

船长根据预计的船舶轨迹调整航向以避开恶劣天气。

4.By analyzing the ship trajectory, we can predict potential collisions with other vessels.

通过分析船舶轨迹，我们可以预测与其他船只的潜在碰撞。

5.Marine scientists study the ship trajectory data to understand ocean currents better.

海洋科学家研究船舶轨迹数据以更好地理解海流。

作文

In the field of maritime navigation, understanding the ship trajectory (船舶轨迹) is crucial for ensuring safe and efficient travel across the world's oceans. The term 'ship trajectory' refers to the path that a vessel follows as it moves through the water. This path is influenced by various factors, including the ship's speed, direction, and the environmental conditions it encounters. By analyzing the ship trajectory (船舶轨迹), navigators can make informed decisions about route planning, fuel consumption, and the overall safety of the journey.One of the most important aspects of studying ship trajectory (船舶轨迹) is the impact of currents and tides on a vessel's movement. Ocean currents can significantly alter a ship's intended path, sometimes pushing it off course or requiring adjustments to maintain the desired trajectory. For example, when a ship is navigating through the Gulf Stream, it may need to compensate for the strong current that flows northward. Understanding these dynamics allows mariners to optimize their routes, saving time and reducing fuel costs.Additionally, technology plays a vital role in tracking and predicting ship trajectory (船舶轨迹). Modern vessels are equipped with sophisticated navigation systems that incorporate GPS and AIS (Automatic Identification System) technology. These systems provide real-time data on a ship’s position, speed, and heading, allowing crews to visualize their ship trajectory (船舶轨迹) on electronic charts. This information is invaluable, especially in busy shipping lanes where the risk of collision is heightened.Moreover, the study of ship trajectory (船舶轨迹) extends beyond individual vessels; it also encompasses the analysis of traffic patterns in major ports and waterways. By examining how ships interact with one another and the environment, port authorities can develop strategies to improve safety and efficiency. For instance, they might implement traffic separation schemes to minimize the risk of accidents and streamline the flow of maritime commerce.Another critical factor to consider is the influence of weather on ship trajectory (船舶轨迹). Severe weather conditions, such as storms or fog, can drastically affect a ship's course and speed. Mariners must be adept at interpreting weather forecasts and adjusting their ship trajectory (船舶轨迹) accordingly. For example, a captain may decide to alter the planned route to avoid an approaching storm, which could lead to longer travel times but ultimately ensures the safety of the crew and cargo.In conclusion, the concept of ship trajectory (船舶轨迹) is fundamental to maritime navigation. It encompasses the various paths that vessels take across the seas, influenced by natural elements, technological advancements, and human decision-making. By mastering the intricacies of ship trajectory (船舶轨迹), navigators can enhance the safety and efficiency of maritime operations, contributing to the smooth functioning of global trade and transportation. As the shipping industry continues to evolve, ongoing research and innovation in this area will be essential for adapting to new challenges and opportunities in the ever-changing marine environment.

在海洋导航领域，理解船舶轨迹（ship trajectory）对于确保在世界海洋上安全高效的旅行至关重要。术语“船舶轨迹”指的是一艘船在水中移动时所遵循的路径。这一路径受到多种因素的影响，包括船只的速度、方向以及遇到的环境条件。通过分析船舶轨迹（ship trajectory），导航员可以就航线规划、燃料消耗和整体航行安全做出明智的决策。研究船舶轨迹（ship trajectory）的一个重要方面是洋流和潮汐对船只运动的影响。海洋洋流会显著改变船只的预定航线，有时会将其推离航道，或者需要调整以维持所需的轨迹。例如，当一艘船在墨西哥湾流中航行时，它可能需要补偿北向流动的强洋流。理解这些动态使海员能够优化航线，从而节省时间并降低燃料成本。此外，技术在跟踪和预测船舶轨迹（ship trajectory）方面发挥着至关重要的作用。现代船只配备了先进的导航系统，这些系统结合了GPS和AIS（自动识别系统）技术。这些系统提供有关船只位置、速度和航向的实时数据，使船员能够在电子海图上可视化其船舶轨迹（ship trajectory）。这一信息极为宝贵，尤其是在繁忙的航运通道中，碰撞风险增加。此外，研究船舶轨迹（ship trajectory）不仅涉及单个船只；还包括对主要港口和水道交通模式的分析。通过研究船只如何相互作用以及与环境的关系，港口管理机构可以制定提高安全性和效率的策略。例如，他们可能会实施交通分离方案，以最小化事故风险并优化海洋商业流通。另一个关键因素是天气对船舶轨迹（ship trajectory）的影响。恶劣的天气条件，如风暴或雾霾，会极大地影响船只的航向和速度。海员必须善于解读天气预报，并相应地调整其船舶轨迹（ship trajectory）。例如，船长可能决定改变计划路线以避开即将来临的风暴，这可能导致更长的旅行时间，但最终确保了船员和货物的安全。总之，船舶轨迹（ship trajectory）的概念是海洋导航的基础。它涵盖了船只在海洋上行驶的各种路径，受自然元素、技术进步和人类决策的影响。通过掌握船舶轨迹（ship trajectory）的复杂性，导航员可以提高海洋操作的安全性和效率，为全球贸易和运输的顺利进行做出贡献。随着航运业的不断发展，在这一领域的持续研究和创新对于应对不断变化的海洋环境中的新挑战和机遇至关重要。