hitch-hiker satellite

简明释义

母子卫星

英英释义

例句

1.During the mission, several hitch-hiker satellites 搭载卫星 were released into orbit to monitor environmental changes.

在任务期间，几颗hitch-hiker satellites 搭载卫星被释放到轨道上，以监测环境变化。

2.The main satellite's success was bolstered by the additional data collected from the hitch-hiker satellites 搭载卫星 it carried.

主卫星的成功得益于它携带的hitch-hiker satellites 搭载卫星收集的额外数据。

3.The launch vehicle successfully deployed the main satellite along with a few hitch-hiker satellites 搭载卫星 that will conduct scientific experiments.

发射载具成功地部署了主卫星以及几个hitch-hiker satellites 搭载卫星，这些卫星将进行科学实验。

4.The company specializes in deploying hitch-hiker satellites 搭载卫星 for startups looking to enter the space market.

该公司专门为希望进入太空市场的初创企业部署hitch-hiker satellites 搭载卫星。

5.Many space missions utilize hitch-hiker satellites 搭载卫星 to share the cost of launching smaller payloads.

许多太空任务利用hitch-hiker satellites 搭载卫星来分摊发射较小有效载荷的成本。

作文

In recent years, the concept of space exploration has expanded significantly, leading to innovative technologies and methods for launching satellites. One such method is the use of a hitch-hiker satellite, which refers to smaller satellites that are launched alongside larger payloads. This approach not only makes space missions more cost-effective but also allows for the deployment of multiple satellites in a single launch. The idea of a hitch-hiker satellite originated from the need to maximize the use of available rocket space and reduce the overall expenses associated with space missions.Traditionally, launching a satellite can be a costly venture, often requiring dedicated rockets to carry a single payload into orbit. However, with the introduction of hitch-hiker satellites, smaller satellites can share the ride, leading to significant savings. This method has become particularly popular among universities, research institutions, and startups, which may not have the resources to fund an entire launch. By hitching a ride on a larger rocket, these smaller entities can still participate in space exploration and contribute to scientific research.The process of launching a hitch-hiker satellite involves careful planning and coordination. The primary satellite, or the main payload, is typically much larger and more complex than the additional satellites. Launch providers often offer specific slots for hitch-hiker satellites, and these smaller satellites must conform to certain size and weight restrictions. This ensures that they can safely and effectively share the launch vehicle without compromising the primary mission.One of the most significant advantages of using hitch-hiker satellites is the ability to conduct experiments and gather data at a fraction of the cost. For instance, educational institutions can deploy small satellites equipped with sensors to study atmospheric conditions, monitor environmental changes, or even test new technologies in space. These missions, while smaller in scale, can lead to valuable insights and advancements in various fields, including meteorology, climate science, and telecommunications.Moreover, the rise of hitch-hiker satellites has fostered collaboration between different organizations. Smaller companies and academic institutions can partner with larger aerospace firms to gain access to launch opportunities that would otherwise be unavailable. This collaborative spirit enhances innovation and encourages knowledge sharing, ultimately benefiting the entire space industry.As we look toward the future of space exploration, the role of hitch-hiker satellites will likely continue to grow. With advancements in technology, we may see even more sophisticated and capable small satellites being launched alongside larger missions. The potential for widespread applications, from Earth observation to communication networks, highlights the importance of this method in expanding our understanding of space and its possibilities.In conclusion, the concept of a hitch-hiker satellite represents a significant evolution in the way we approach satellite launches. By allowing smaller satellites to share the ride on larger rockets, we can reduce costs, encourage innovation, and promote collaboration within the space community. As we continue to explore the cosmos, the hitch-hiker satellites will undoubtedly play a vital role in shaping the future of space exploration and research.

近年来，太空探索的概念显著扩展，导致了创新技术和发射卫星的新方法。其中一种方法是使用搭便车卫星，指的是与较大有效载荷一起发射的小型卫星。这种方法不仅使太空任务更加经济高效，还允许在一次发射中部署多个卫星。搭便车卫星的概念源于最大化利用可用火箭空间和降低与太空任务相关的整体费用的需求。传统上，发射卫星可能是一项昂贵的事业，通常需要专用火箭将单一有效载荷送入轨道。然而，随着搭便车卫星的引入，小型卫星可以共享发射，从而显著节省成本。这种方法在大学、研究机构和初创公司中变得特别受欢迎，因为这些实体可能没有资金支持整个发射。通过搭乘较大火箭的顺风车，这些小型实体仍然可以参与太空探索并为科学研究做出贡献。发射搭便车卫星的过程涉及仔细的规划和协调。主要卫星或主有效载荷通常比附加卫星大得多且复杂。发射提供商通常为搭便车卫星提供特定的插槽，这些小型卫星必须符合某些大小和重量限制。这确保了它们能够安全有效地共享发射载体，而不影响主要任务。使用搭便车卫星的一个重要优势是以极低的成本进行实验和收集数据。例如，教育机构可以部署配备传感器的小型卫星，以研究大气条件、监测环境变化，甚至测试新技术在太空中的表现。这些任务虽然规模较小，但可以带来有价值的见解和在气象学、气候科学和电信等各个领域的进展。此外，搭便车卫星的兴起促进了不同组织之间的合作。较小的公司和学术机构可以与大型航空航天公司合作，以获得原本无法获得的发射机会。这种协作精神增强了创新，并鼓励知识共享，最终使整个太空产业受益。展望太空探索的未来，搭便车卫星的角色可能会继续增长。随着技术的进步，我们可能会看到更多复杂和能力强的小型卫星与更大的任务一起发射。广泛应用的潜力，从地球观测到通信网络，突显了这种方法在扩展我们对太空及其可能性的理解中的重要性。总之，搭便车卫星的概念代表了我们接近卫星发射方式的重要演变。通过允许小型卫星与较大火箭共享发射，我们可以降低成本，鼓励创新，促进太空社区内的合作。随着我们继续探索宇宙，搭便车卫星无疑将在塑造太空探索和研究的未来中发挥重要作用。