spaceborne
简明释义
adj. 运载飞船上的;卫星转播的;[航] 航天器上的
英英释义
Referring to objects or instruments that are carried or operated in space, typically used in the context of satellites or spacecraft. | 指在太空中携带或操作的物体或仪器,通常用于卫星或航天器的上下文中。 |
单词用法
太空观测 | |
太空任务 | |
太空传感器 | |
太空平台 | |
太空数据 | |
太空系统 |
同义词
| 卫星 | 卫星技术彻底改变了通信。 | ||
| 轨道的 | 轨道力学对于太空任务至关重要。 | ||
| 外星的 | 外星生命仍然是一个备受关注的话题。 |
反义词
| 地面基础的 | Ground-based telescopes are often used for astronomical observations. | 地面望远镜常用于天文观测。 | |
| 受地球引力限制的 | 受地球引力限制的技术依赖于陆地基础设施。 |
例句
1.The algorithms for generating Spaceborne SAR raw signals are explored.
讨论了星载SAR回波信号生成算法。
2.The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA's Terra satellite captured this image of the two water bodies on September 5, 2010.
2010年9月5日,美国国家航空航天局的“特拉”卫星上搭载的先进星载热发射和反射辐射仪Advanced Spaceborne Thermal Emission and ReflectionRadiometer,ASTER拍摄到一幅关于这两个水体的图片。
3.Satellite beam synchronization design strategy is key design issue of distributed spaceborne radar system design.
波束同步设计是星载分布式雷达系统总体设计的重要问题。
4.This paper describes a new method of antenna reception pattern measurement for spaceborne SAR using encoding transmitters.
对利用多个编码发射机在轨测量星载SAR接收天线二维方向图的技术进行了研究。
5.Signal properties of spaceborne spotlight SAR are discussed.
该文分析了星载聚束式sar的信号特性。
6.A method of simulating distributed target's raw data of spaceborne SAR is given.
该文提出了一种星载sar分布目标原始数据模拟的方法。
7.Generally the spatial resolution of spaceborne microwave radiometer is low since its antenna size and weight are limited by its platform.
由于天线尺寸和重量受到限制,星载微波辐射计的空间分辨率通常都比较低。
8.The satellite is equipped with advanced sensors to collect data from spaceborne 太空中的 sources.
该卫星配备了先进的传感器,以从太空中的来源收集数据。
9.Researchers are analyzing spaceborne 太空中的 images to study climate change.
研究人员正在分析太空中的图像以研究气候变化。
10.Many spaceborne 太空中的 instruments are used for Earth observation.
许多太空中的仪器用于地球观测。
11.The spaceborne 太空中的 observatory has provided valuable insights into distant galaxies.
这座太空中的天文台提供了对遥远星系的宝贵见解。
12.The mission aims to deploy a new spaceborne 太空中的 radar system.
该任务旨在部署一个新的太空中的雷达系统。
作文
In the modern era, the exploration of outer space has become a significant focus for scientists and researchers around the globe. One of the most fascinating aspects of this exploration is the development and deployment of various technologies that are classified as spaceborne (太空中的) systems. These technologies are designed to operate in the challenging environment of space, providing valuable data and insights that contribute to our understanding of the universe.The term spaceborne (太空中的) refers to any equipment or technology that is launched into space and operates there. This includes satellites, space probes, and even crewed spacecraft. Each of these spaceborne (太空中的) systems plays a crucial role in gathering information about celestial bodies, monitoring Earth's climate, and facilitating communication across vast distances. The significance of spaceborne (太空中的) technologies cannot be overstated, as they have revolutionized how we perceive and interact with our planet and beyond.One of the most well-known examples of spaceborne (太空中的) technology is the Hubble Space Telescope. Launched in 1990, this telescope has provided breathtaking images of distant galaxies, nebulae, and other astronomical phenomena. The data collected by Hubble has led to numerous discoveries, including the determination of the rate of expansion of the universe. Without such spaceborne (太空中的) instruments, our understanding of the cosmos would be vastly limited.Another important application of spaceborne (太空中的) technology is in the area of Earth observation. Satellites equipped with advanced sensors can monitor weather patterns, track natural disasters, and assess changes in land use and vegetation. For instance, the Landsat program has been instrumental in providing detailed images of Earth's surface over several decades, allowing scientists to study environmental changes and their impact on ecosystems. The data gathered from these spaceborne (太空中的) satellites is invaluable for policymakers and researchers working to address climate change and resource management.Moreover, spaceborne (太空中的) systems are also critical for global communication. Communication satellites enable television broadcasts, internet connectivity, and telephone services across the globe. These spaceborne (太空中的) technologies have bridged gaps between continents, allowing for instantaneous communication and access to information. As a result, they have transformed the way we connect with one another, fostering a more interconnected world.In recent years, the rise of private companies in the space industry has further accelerated the development of spaceborne (太空中的) technologies. Companies like SpaceX and Blue Origin are not only launching their own satellites but are also working towards making space travel more accessible to the general public. This new era of commercial spaceflight promises to open up new opportunities for research and exploration, paving the way for innovative spaceborne (太空中的) applications that we have yet to imagine.In conclusion, the advancement of spaceborne (太空中的) technologies has significantly enhanced our understanding of the universe and our planet. From astronomical discoveries to environmental monitoring and global communication, these systems play an essential role in shaping our future. As we continue to explore the possibilities of space, it is crucial to invest in and support the development of spaceborne (太空中的) technologies that will undoubtedly lead to further breakthroughs and innovations. The journey into the cosmos is just beginning, and the potential benefits of spaceborne (太空中的) exploration are limitless.
在现代时代,外太空的探索已成为全球科学家和研究人员的重要关注点。这一探索中最引人入胜的方面之一是各种被称为spaceborne(太空中的)系统的技术的发展和部署。这些技术旨在在太空的挑战性环境中运行,提供有价值的数据和见解,帮助我们理解宇宙。术语spaceborne(太空中的)指的是任何被发射到太空并在其中运行的设备或技术。这包括卫星、航天探测器,甚至载人航天器。每一个spaceborne(太空中的)系统在收集有关天体的信息、监测地球气候以及促进跨越广阔距离的通信方面都发挥着至关重要的作用。spaceborne(太空中的)技术的重要性不容小觑,因为它们彻底改变了我们对地球及其以外事物的感知和互动方式。一个众所周知的spaceborne(太空中的)技术示例是哈勃太空望远镜。该望远镜于1990年发射,提供了遥远星系、星云和其他天文现象的惊人图像。哈勃收集的数据导致了许多发现,包括宇宙扩张速度的确定。如果没有这样的spaceborne(太空中的)仪器,我们对宇宙的理解将大大受限。spaceborne(太空中的)技术的另一个重要应用是在地球观测领域。配备先进传感器的卫星可以监测天气模式、跟踪自然灾害并评估土地使用和植被的变化。例如,Landsat项目在提供数十年来地球表面的详细图像方面发挥了重要作用,使科学家能够研究环境变化及其对生态系统的影响。从这些spaceborne(太空中的)卫星收集的数据对于努力应对气候变化和资源管理的政策制定者和研究人员来说是无价的。此外,spaceborne(太空中的)系统对于全球通信也至关重要。通信卫星使电视广播、互联网连接和全球电话服务成为可能。这些spaceborne(太空中的)技术缩短了大陆之间的距离,实现了即时通信和信息获取。因此,它们改变了我们彼此联系的方式,促进了一个更加互联的世界。近年来,私营公司在太空产业的崛起进一步加速了spaceborne(太空中的)技术的发展。像SpaceX和Blue Origin这样的公司不仅发射自己的卫星,还致力于让普通公众更容易进行太空旅行。这一商业航天的新纪元承诺为研究和探索开辟新的机会,为我们尚未想象的创新spaceborne(太空中的)应用铺平了道路。总之,spaceborne(太空中的)技术的进步显著增强了我们对宇宙和我们星球的理解。从天文学发现到环境监测和全球通信,这些系统在塑造我们的未来方面发挥着至关重要的作用。随着我们继续探索太空的可能性,投资和支持spaceborne(太空中的)技术的发展至关重要,这些技术无疑会带来更多突破和创新。进入宇宙的旅程才刚刚开始,而spaceborne(太空中的)探索的潜在好处是无穷无尽的。
