docking plan

简明释义

进坞图

英英释义

例句

1.The docking plan was adjusted due to unexpected weather conditions.

由于意外的天气条件，停靠计划进行了调整。

2.The crew followed the docking plan meticulously to avoid collisions.

船员们严格按照停靠计划操作，以避免碰撞。

3.Before any ship arrives, the harbor master must approve the docking plan.

在任何船只到达之前，港口主管必须批准停靠计划。

4.The captain reviewed the docking plan before approaching the harbor.

船长在靠近港口之前审查了停靠计划。

5.Our team developed a detailed docking plan to ensure safety during the vessel's arrival.

我们的团队制定了一个详细的停靠计划，以确保船只到达时的安全。

作文

In the realm of space exploration, the term docking plan refers to the strategic approach and sequence of operations that spacecraft must follow to successfully connect with another spacecraft or a space station. The importance of a well-structured docking plan cannot be overstated, as it ensures the safety of the crew and the integrity of the spacecraft. A docking maneuver is a complex process that requires precise calculations, coordination, and timing, making the development of a robust docking plan essential for mission success.When preparing for a mission, engineers and mission planners analyze various factors that could affect the docking process. These include the relative velocities of the two spacecraft, their positions in orbit, and the gravitational influences of nearby celestial bodies. A successful docking plan must account for all these variables and provide clear instructions for the astronauts involved.One of the most notable examples of a successful docking plan is the Apollo missions, which aimed to land humans on the Moon. During these missions, the Lunar Module had to dock with the Command Module in lunar orbit before the astronauts could return to Earth. The meticulous planning and execution of the docking plan were crucial in ensuring that the astronauts could safely transfer between the two modules without compromising their safety or the mission's objectives.In contemporary space missions, the International Space Station (ISS) serves as a prime example of the need for effective docking plans. Numerous spacecraft from different countries regularly dock with the ISS to deliver supplies, conduct experiments, and bring astronauts back to Earth. Each of these missions requires a unique docking plan, tailored to the specific spacecraft and its capabilities. For instance, the Russian Soyuz spacecraft has its own docking procedures, while NASA’s Crew Dragon has developed a more automated docking process. This diversity highlights the importance of having adaptable docking plans that can accommodate various technologies and operational protocols.Moreover, advancements in technology have significantly improved the efficiency and safety of docking plans. Modern spacecraft are equipped with sophisticated sensors and software that assist in navigation and docking maneuvers. These innovations have reduced the margin of error, allowing for more autonomous docking processes. However, even with these advancements, human oversight remains a critical component of any docking plan. Astronauts must be trained to handle unexpected situations or anomalies that may arise during the docking procedure.In conclusion, a well-designed docking plan is a cornerstone of successful space missions. It encompasses a detailed strategy that considers multiple variables, ensuring that spacecraft can safely rendezvous in the vastness of space. As we continue to explore beyond our planet, the significance of docking plans will only grow, paving the way for more ambitious missions and deeper space exploration. The future of space travel relies heavily on our ability to innovate and refine these plans, ensuring that humanity can reach new frontiers safely and efficiently.

在太空探索领域，术语docking plan指的是航天器成功连接到另一艘航天器或空间站时必须遵循的战略方法和操作顺序。一个结构良好的docking plan的重要性不容小觑，因为它确保了机组人员的安全和航天器的完整性。对接操作是一个复杂的过程，需要精确的计算、协调和时机，因此制定一个强大的docking plan对任务的成功至关重要。在准备任务时，工程师和任务规划者会分析可能影响对接过程的各种因素。这些因素包括两艘航天器的相对速度、它们在轨道上的位置以及附近天体的引力影响。成功的docking plan必须考虑所有这些变量，并为参与的宇航员提供明确的指示。最著名的成功docking plan的例子之一是阿波罗任务，这些任务旨在将人类送上月球。在这些任务中，登月舱必须在月球轨道上与指令舱对接，然后宇航员才能返回地球。对docking plan的细致规划和执行对于确保宇航员能够安全地在两个模块之间转移至关重要，而不会危及他们的安全或任务的目标。在当代太空任务中，国际空间站（ISS）作为有效docking plan需求的典范。来自不同国家的众多航天器定期与ISS对接，以运送补给、进行实验和将宇航员带回地球。每个这些任务都需要一个独特的docking plan，根据特定航天器及其能力量身定制。例如，俄罗斯的联盟号航天器有自己的对接程序，而美国国家航空航天局的Crew Dragon则开发了更为自动化的对接过程。这种多样性突显了拥有适应性强的docking plans的重要性，以便能够适应各种技术和操作协议。此外，技术的进步显著提高了docking plans的效率和安全性。现代航天器配备了先进的传感器和软件，帮助导航和对接操作。这些创新减少了误差范围，使得更为自主的对接过程成为可能。然而，即使有这些进步，人为监督仍然是任何docking plan的重要组成部分。宇航员必须接受培训，以应对对接程序中可能出现的意外情况或异常。总之，一个设计良好的docking plan是成功太空任务的基石。它涵盖了一个详细的策略，考虑多个变量，确保航天器能够安全地在浩瀚的太空中相遇。随着我们继续探索地球之外的空间，docking plans的重要性只会增加，为更具雄心的任务和更深层次的太空探索铺平道路。太空旅行的未来在很大程度上依赖于我们创新和完善这些计划的能力，确保人类能够安全高效地到达新的边界。