short-lifetime satellite

简明释义

短期运转卫星

英英释义

例句

1.Researchers are using a short-lifetime satellite to gather real-time data on ocean temperatures.

研究人员正在利用一颗短寿命卫星收集海洋温度的实时数据。

2.Engineers must ensure that the short-lifetime satellite can withstand harsh atmospheric conditions during its brief mission.

工程师必须确保这颗短寿命卫星能够在其短暂任务期间承受恶劣的气象条件。

3.The short-lifetime satellite will provide critical information for climate change studies.

这颗短寿命卫星将为气候变化研究提供重要信息。

4.The launch of the short-lifetime satellite has been scheduled for next month to support disaster monitoring.

下个月计划发射这颗短寿命卫星以支持灾害监测。

5.Due to its limited operational period, the short-lifetime satellite is designed for rapid deployment.

由于其有限的操作周期，这颗短寿命卫星被设计为快速部署。

作文

In recent years, the development of space technology has accelerated rapidly, leading to the deployment of various types of satellites. Among these, the concept of a short-lifetime satellite (短生命周期卫星) has gained significant attention. These satellites are designed to operate for a limited period, typically ranging from a few months to a couple of years, before they are decommissioned or replaced. This essay will explore the characteristics, advantages, and applications of short-lifetime satellites (短生命周期卫星), highlighting their importance in the modern era of space exploration and communication.One of the defining features of short-lifetime satellites (短生命周期卫星) is their cost-effectiveness. Traditional satellites often require substantial investments in terms of design, construction, and launch. In contrast, short-lifetime satellites (短生命周期卫星) can be produced more rapidly and at a lower cost. This affordability allows organizations, including universities and startups, to participate in space missions that were previously reserved for larger entities with significant funding.Moreover, short-lifetime satellites (短生命周期卫星) are particularly useful for specific scientific missions and experimental projects. For instance, researchers may want to test new technologies or gather data on transient phenomena, such as natural disasters or environmental changes. By deploying a short-lifetime satellite (短生命周期卫星), they can obtain valuable insights without the long-term commitment associated with traditional satellites. This flexibility enables scientists to adapt quickly to emerging needs and challenges in their research fields.Another advantage of short-lifetime satellites (短生命周期卫星) is their role in addressing the increasing demand for global connectivity. With the rise of Internet of Things (IoT) devices and the need for real-time data transmission, there is a growing need for satellites that can provide coverage in remote areas. Short-lifetime satellites (短生命周期卫星) can be deployed in constellations to create a more extensive network, ensuring that even the most isolated regions have access to communication services.Additionally, short-lifetime satellites (短生命周期卫星) play a crucial role in space debris management. As the number of satellites in orbit increases, so does the risk of collisions and the creation of space debris. By designing satellites with shorter lifespans, engineers can ensure that these objects re-enter the Earth's atmosphere and burn up, reducing the amount of debris left in orbit. This proactive approach is essential for maintaining the sustainability of space activities and protecting existing satellites from potential hazards.In conclusion, the emergence of short-lifetime satellites (短生命周期卫星) represents a significant advancement in space technology. Their cost-effectiveness, adaptability for scientific research, contribution to global connectivity, and role in space debris management make them a valuable asset in today's rapidly evolving space landscape. As we continue to explore the cosmos and utilize satellite technology for various applications, the importance of short-lifetime satellites (短生命周期卫星) will only grow, paving the way for innovative solutions to address the challenges of our time.

近年来，太空技术的发展迅速加快，导致各种类型的卫星的部署。在这些卫星中，短生命周期卫星 (short-lifetime satellite) 的概念引起了广泛关注。这些卫星旨在有限的时间内运行，通常持续几个月到几年，然后被退役或替换。本文将探讨短生命周期卫星 (short-lifetime satellite) 的特点、优势和应用，强调它们在现代太空探索和通信中的重要性。短生命周期卫星 (short-lifetime satellite) 的一个显著特征是其成本效益。传统卫星通常需要大量的投资，包括设计、建造和发射。相比之下，短生命周期卫星 (short-lifetime satellite) 可以更快速且以更低的成本生产。这种经济实惠使得包括大学和初创公司在内的组织能够参与以前只属于大型实体的太空任务。此外，短生命周期卫星 (short-lifetime satellite) 对于特定的科学任务和实验项目特别有用。例如，研究人员可能希望测试新技术或收集关于瞬态现象的数据，例如自然灾害或环境变化。通过部署短生命周期卫星 (short-lifetime satellite)，他们可以在不需要长期承诺的情况下获得有价值的见解。这种灵活性使科学家能够快速适应其研究领域中出现的需求和挑战。短生命周期卫星 (short-lifetime satellite) 的另一个优势是它们在满足全球连接日益增长的需求方面的作用。随着物联网(IoT)设备的兴起和对实时数据传输的需求增加，对能够在偏远地区提供覆盖的卫星的需求也在增加。短生命周期卫星 (short-lifetime satellite) 可以以星座的形式部署，创建更广泛的网络，确保即使是最偏远的地区也能获得通信服务。此外，短生命周期卫星 (short-lifetime satellite) 在太空垃圾管理中发挥着至关重要的作用。随着轨道上卫星数量的增加，碰撞和太空垃圾产生的风险也在增加。通过设计具有较短寿命的卫星，工程师可以确保这些物体重新进入地球大气层并燃烧，从而减少留在轨道上的垃圾量。这种积极的做法对于维持太空活动的可持续性和保护现有卫星免受潜在危害至关重要。总之，短生命周期卫星 (short-lifetime satellite) 的出现代表了太空技术的重大进步。它们的成本效益、适应科学研究的能力、对全球连接的贡献以及在太空垃圾管理中的作用，使它们在当今快速发展的太空环境中成为宝贵的资产。随着我们继续探索宇宙并利用卫星技术进行各种应用，短生命周期卫星 (short-lifetime satellite) 的重要性只会增加，为解决我们时代的挑战铺平道路。