Three decades of progress in China’s space High-Tech Program empowered by modern astrodynamics

Q1 Physics and Astronomy

REACH Pub Date : 2017-03-01 DOI:10.1016/j.reach.2017.01.001

Jianping Yuan , Yang Yu , Yang Gao , Hengnian Li , Weihua Ma , Xin Ning , Geshi Tang , Yong Shi , Chong Sun , Xingsuo He , Shouhua Zhang , Hexi Baoyin

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引用次数: 4

Abstract

This year is remarkable for the Chinese space industry, as it marks the 60th anniversary of its establishment, and also coincides with the expiration of the National High-Tech Research and Development Program of China (also widely known as the 863 Program) after three decades. As full participants and the chief scientist of this milestone program for the last decade, we are strongly inspired by the profound role of modern astrodynamics in Chinese space practices. Sharing a common starting point with planetary science, astrodynamics is rooted in the findings of Kepler and Galileo, and its theory was first formulated by Newton. This paper aims to tell the story of the progress and development of astrodynamics in the context of China’s space technology reflected throughout the 30-year-long National Space High-Tech Program: the explosive growth of recent Chinese space missions has been strongly encouraged by the progressing of modern astrodynamics. As the plotline of this article, the milestones of Chinese space flight, most of which were supported by the 863 Program, were collected and organized within the framework of the main achievements in modern astrodynamics, and as it will be demonstrated, these amazing space activities paint a clear picture that can be understood as a part of the great journey of human space exploration.

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现代天体动力学赋予中国空间高技术工程三十年的成就

今年对中国航天工业来说是非同寻常的一年，因为它是中国航天工业成立60周年，也恰逢中国国家高技术研究与发展计划(也被广泛称为863计划)在30年后到期。作为过去十年中这一里程碑式项目的全面参与者和首席科学家，我们深受现代天体动力学在中国空间实践中的深刻作用的鼓舞。天体动力学与行星科学有着共同的起点，它植根于开普勒和伽利略的发现，其理论最早是由牛顿提出的。本文旨在讲述在30年的国家空间高技术计划中反映的中国空间技术背景下天体动力学的进步和发展:现代天体动力学的进步有力地鼓励了近年来中国空间任务的爆炸式增长。作为这篇文章的主线，中国航天飞行的里程碑，其中大部分是由863计划支持的，被收集和组织在现代天体动力学的主要成就的框架内，并将被证明，这些惊人的空间活动描绘了一幅清晰的画面，可以理解为人类太空探索伟大旅程的一部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

REACH Engineering-Aerospace Engineering

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The Official Human Space Exploration Review Journal of the International Academy of Astronautics (IAA) and the International Astronautical Federation (IAF) REACH – Reviews in Human Space Exploration is an international review journal that covers the entire field of human space exploration, including: -Human Space Exploration Mission Scenarios -Robotic Space Exploration Missions (Preparing or Supporting Human Missions) -Commercial Human Spaceflight -Space Habitation and Environmental Health -Space Physiology, Psychology, Medicine and Environmental Health -Space Radiation and Radiation Biology -Exo- and Astrobiology -Search for Extraterrestrial Intelligence (SETI) -Spin-off Applications from Human Spaceflight -Benefits from Space-Based Research for Health on Earth -Earth Observation for Agriculture, Climate Monitoring, Disaster Mitigation -Terrestrial Applications of Space Life Sciences Developments -Extreme Environments REACH aims to meet the needs of readers from academia, industry, and government by publishing comprehensive overviews of the science of human and robotic space exploration, life sciences research in space, and beneficial terrestrial applications that are derived from spaceflight. Special emphasis will be put on summarizing the most important recent developments and challenges in each of the covered fields, and on making published articles legible for a non-specialist audience. Authors can also submit non-solicited review articles. Please note that original research articles are not published in REACH. The Journal plans to publish four issues per year containing six to eight review articles each.

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