於洋

2005年9月-2009年7月北京航空航天大學，大學本科畢業

2009年9月-2014年7月清華大學，航空宇航科學與技術，博士學位

2012年8月-2013年8月馬里蘭大學，合作導師Derek C. Richardson

2012年至2013年在美國馬里蘭大學做訪問學者；

2014年至2016年於法國國家科學研究中心尼斯天文台做博士后研究；

2016年入職北京航空航天大學並獲評副教授；

2020年獲評教授。

主要從事深空探測動力學與控制、複雜環境探測機器人動力學與控制等方面的研究。

[1]基於數據驅動的智能自主機器人

[2]仿生機器人

[3]複雜環境探測機器人

[4]空間複雜環境下的顆粒系統動力學

[5]小天體形成與演化的動力學機制

[6]不規則弱引力場中的軌道動力學行為

[1]非線性動力學

[2]現代力學基礎

[3]理論力學

致力於深空探測動力學與控制方向的研究，取得了一系列有價值的研究成果；被《科學》雜誌網站報道，得到國際同行的高度評價；2020年10月作為通訊作者在Nature子刊《Nature Astronomy》發表了最新研究成果，文章標題為《Reconstructing the formation history of top-shaped asteroids by the surface boulders distribution》（中譯：根據表面巨石分佈重構陀螺型小行星的形成歷史），揭示了太陽系一類陀螺型小行星表面演化的動力學機制關於行星表面力學環境的研究成果；獨立開發了小行星碎片雲分析軟體，被歐空局Hera任務論證組採用，由約翰霍普金斯大學APL實驗室主任Andrew Cheng邀請加入國際小行星探測任務DART科學團隊。發表SCI論文30餘篇，由斯普林格出版英文學術專著1部，現為AIAA會員、AGU會員、北京力學會青年工作委員會委員。2018年入選北京市科協青年人才托舉項目，2020年入選國家自然科學基金委優青項目。

[1]國家自然科學基金優秀青年科學基金項目，空間複雜環境下的顆粒動力學，2021/01-2023/12，120萬元，在研，主持

[2]國家自然科學基金青年基金項目，11702009，雙小行星系統構型演化的動力學機制研究，2018/01-2020/12，35萬元，結題，主持

[3]科技委前沿創新計劃，泛在寄生數理學機理研究，2018.5—2019.5主持

[4]歐盟FP7框架研究計劃課題，640351，NEOShield2: Science and Technology for Near-Earth Object Impact Prevention，2015/03-2016/01，100,000 EUR，已結題，參加

[5]歐盟FP7框架研究計劃課題，282703，NEOShield WP3: Modelling / Numerical Simulations，2014/08-2015/03，120,000 EUR，已結題，參加;

[6]國家自然科學基金面上項目，11372150，小行星不規則引力場中的軌道動力學與控制，2014/01-2016/12，80萬元，已結題，參加

[7]國家重點基礎研究發展計劃(973)子課題，2012CB720000，不規則弱引力場中探測器運動行為分析與著陸控制，2012/01-2013/12，724萬元，已結題，參加

● [1]Hexi Baoyin,Erik Asphaug,Yang Yu,Bin Cheng.Reconstructing the formation history of top-shaped asteroids by the surface boulders distribution.Nature Astronomy.2020

● [2]於洋，寶音賀西.第9章.小行星附近的軌道.《深空探測動力學與控制》,主編：李俊峰.北京：科學出版社2014.

● [3] Yu Y. Orbital Dynamics in the Gravitational Field of Small Bodies. Springer, 2016.

● [4]於洋,寶音賀西,李俊峰.空間繩索系統的動力學建模方法.北京力學會2010學術年會, 2010,10,北京.

● [5]於洋,寶音賀西,李俊峰.自旋空間系的引力潮汐推進.全國第十五屆空間及運動體控制技術學術年會論文,2012, 10,合肥.

● [6]於洋,寶音賀西,李俊峰.小行星(216)Kleopatra 附近的動力學環境.中國宇航學會2011年學術年會,2011,12,北京.

● [7] H. Niu, X. Zeng, J. Guo, Y. Yu, and F. Zhang. A CONCEPT OF A SWIMMING ROBOT FOR FUTURE EXTRATERRESTRIAL LIFE EXPLORATION. IAA-AAS-DyCoSS, Changsha, China, 2018.

● [8] M. Hirabayashi, A. B. Davis, S. P. Naidu, Y. Yu, et al. NASA’s DART mission to Didymos: A scenario of mutual orbit perturbation due to shape deformation of the primary caused by impacts of DART-driven ejecta. 9th Workshop on Catastrophic Disruption in the Solar System (CD9), Kobe, Japan, 2018.

● [9] M. Hirabayashi, A. B. Davis, S. P. Naidu, Y. Yu, et al. NASA’s DART MISSION TO DIDYMOS: THE EFFECT OF SHAPE DEFORMATION OF THE PRIMARY AND ELLIPTICITY OF THE SECONDARY ON POST-IMPACT ORBITAL PERIOD. 49th Lunar and Planetary Science Conference, TX, USA, 2018.

● [10] Hamilton D. P., Fahnestock E. G., Schwartz S. R., Murdoch N., Asphaug E., Cheng A. F., Housen K. R., Michel P., Miller P., Stickle A., Tancredi G., Vincent J. -B., Wünnemann K., Yu Y., Delchambre S., Ziegler T., Falke A., and The AIDA Impact Simulation Working Group. Asteroid Impact Deflection and Assessment (AIDA) Mission Properties of Impact Ejecta. DPS-EPSC Joint Meeting, Pasadena, California, USA, 2016.

● [11] Schwartz S. R., Asphaug E., Cheng A., Housen K. R., Michel P., Miller P., Stickle A., Tancredi G., Vincent J. -B., Wünnemann K., Yu Y., et al. Modeling and Simulation of Impact Outcomes: Ejecta Properties and Evolution. The 47th Lunar and Planetary Science Conference, Woodlands, Texas, USA, 2016.

● [12] Statler T., Richardson D. C., Walsh K., Yu Y., Michel P. A mechanism for self-reinforcing YORP acceleration of fast-rotating asteroids. Asteroids, Comets and Meteors, Helsinki, 2014.

● [13] Richardson D. C., Michel P., Schwartz S., Yu Y., Ballouz R., Matsumura S. Applications of granular dynamics numerical simulations to asteroid surfaces. Asteroids, Comets and Meteors, Helsinki, 2014.

● [14] Michel P, Yu Y. The contribution of impact cratering in the production of regolith on asteroid surfaces: first application to the targets of AIDA and Hayabusa2 missions. JpGU-AGU Joint Meeting 2017, Makuhari Messe, Japan, 2017.

● [15] Fahnestock E. G., Yu Y., Hamilton D. P., Schwartz S. R. Asteroid Impact Deflection Assessment (AIDA) Mission - Full-Scale Modeling & Simulation of Ejecta Evolution & Fates. DPS-EPSC Joint Meeting, Pasadena, California, USA, 2016.

● [16] Michel P., Yu Y., Schwartz S. R., Naidu S., Benner L. Dynamics of ejecta from the binary asteroid Didymos, the target of the AIDA mission. The European Geosciences Union, Vienna, Austria, 2016.

● [17] Schwartz S., Yu Y., Michel P., Jutzi M., Richardson D. C. NEOShield: the fate of ejecta from a kinetic impactor strike on a near-earth object. 4th IAA Planetary Defense Conference, Frascati, Roma, Italy, 2015.

● [18] Y. Yu, P. Michel. The Dynamics of Regolith Material Lofted from a Fast-rotating Top-shaped Asteroid, 18th U.S. National Congress for Theoretical and Applied Mechanics, Michigan, USA, 2018.

● [19] Yu Y., Michel P. ORBITAL DEPENDENCIES OF EJECTA FROM THE DART IMPACT ON THE SECONDARY OF 65803 DIDYMOS. PDC 2017, Tokyo, Japan, 2017.

● [20] Yu Y., Michel P. A GRID SEARCH OF THE DYNAMICAL FATES OF EJECTA PRODUCED BY THE AIDA IMPACT ON THE SECONDARY OF (65803) DIDYMOS. 48th Lunar and Planetary Science Conference, TX, USA, 2017.

● [21] Yu Y., Michel P. POST-IMPACT DYNAMICS OF THE EJECTA CLOUD IN THE AIDA MISSION SCENARIO: A MODEL STUDY. Asteroids, Comets, Meteors, Montevideo, Uruguay, 2017.

● [22] Yu Y., Michel P., Schwartz S. R., Benner S. N. L. DYNAMICS OF THE EJECTA CLOUD PRODUCED BY A KINETIC IMPACT ON THE SECONDARY OF THE BINARY ASTEROID DIDYMOS: A CONTRIBUTION TO THE AIDA SPACE PROJECT. The 47th Lunar and Planetary Science Conference, Woodlands, Texas, USA, 2016.

● [23] Yu Y., Schwartz S., Michel P., Benner L. Dynamics of ejecta from a binary asteroid impact in the framework of the AIDA mission: a NEOShield-2 contribution. European Planetary Science Congress 2015, Nantes, France, 2015.

● [24] Yu Y., Baoyin H., Chen Y., Li J., Gong S., Zeng X. The orbital propulsion of spinning tether via angular momentum transfer. 62nd International Astronautical Congress Proceedings, Cape Town, 2011.

● [25] Yu Y., Baoyin H., Li J., Chen Y. Static and dynamic analysis of space webs. 61st International Astronautical Congress Proceedings, Prague, 2010.

● [26]李京陽,於洋,寶音賀西,李俊峰.空間飛網兩種動力學模型的比較研究.力學學報,2011,43: 542-550.

● [27]於洋,寶音賀西,李俊峰.小天體附近的軌道動力學研究綜述.深空探測學報,2014,1(2):93-104.

● [28]於洋,寶音賀西,李俊峰.空間飛網拋射展開動力學與模擬.宇航學報,2010,5: 1289-1295.

● [29] Cheng B., Yu Y., Baoyin H. Asteroid surface impact sampling: dependence of the cavity morphology and collected mass on projectile shape. SCIENTIFIC REPORTS, 2017, 7, 10004.

● [30] Hirabayashi M., Schwartz S. R., Yu Y., et al. Constraints on the perturbed mutual motion in Didymos due to impact-induced deformation of its primary after the DART impact. MNRAS, 2017, 472, 1641–1648.

● [31] Michel P., Cheng A., et al., Yu Y. Science case for the Asteroid Impact Mission (AIM): A component of the Asteroid Impact: Deflection Assessment (AIDA) mission, Advances in Space Research, 2016, 57(12): 2529-2547.

● [32] Zeng X., Fang B., Li J., Yu Y. Generalized flyby trajectories around elongated minor celestial bodies as a rotating mass dipole. Acta Mech. Sin., 2015, 32(3): 535–545.

● [33] Zeng X., Zhang Y., Yu Y., Liu X. THE DIPOLE SEGMENT MODEL FOR AXISYMMETRICAL ELONGATED ASTEROIDS. Astronomical Journal, 2018, 155, 85.

● [34] Baoyin H., Yu Y., Li J. Orbital maneuver for a rotating tethered system via tidal forces. Journal of Spacecraft and Rockets, 2013, 50(5): 1060-1068.

● [35] Ballouz R., Richardson D. C., Michel P., Schwartz S. R., Yu Y. Numerical simulations of collisional disruption of rotating gravitational aggregates: dependence on material properties. Planetary and Space Science, 2015, 107: 29-35.

● [36] Jiang Y., Baoyin H., Wang X., Yu Y., Li H., Peng C., Zhang Z. Order and chaos near equilibrium points in the potential of rotating highly irregular-shaped celestial bodies. Nonlinear Dynamics, 2016, 83: 231-252.

● [37] Yuan J., Yu Y., Gao Y., Li H., Ma W., Ning X., Tang G., Shi Y., Sun C., He X., Zhang S., Baoyin H., Three Decades of Progress in China’s Space High-Tech Program Empowered by Modern Astrodynamics. REACH-Reviews in Human Space Exploration, 2017, 5: 1-8.

● [38] Jiang Y., Yu Y., Baoyin H. Topological classifications and bifurcations of periodic orbits in the potential field of highly irregular-shaped celestial bodies. Nonlinear Dynamics, 2015, 81(1): 119-140.

● [39] Schwartz S. R., Yu Y., Michel P., Jutzi M., Small-body deflection techniques using spacecraft: Techniques in simulating the fate of ejecta, Advances in Space Research, 2016, 57(8): 1832-1846.

● [40] Cheng B., Yu Y., Baoyin H. A. Collision-Based Understanding of the Force Law in Granular Impact Dynamics. Physical Review E, 2018, 98, 012901.

● [41] Yu Y., Richardson D. C., Michel P. Structure analysis of rubble-pile asteroids applied to collisional evolution. Astrodynamics, 2017, 1: 57-69.

● [42] Yu Y., Baoyin H. Modeling and migrating grains on asteroid’s surface. Astrophysics and Space Science, 2015, 355(1): 43-56.

● [43] Yu Y., Baoyin H. Routing the asteroid surface vehicle with detailed mechanics. Acta Mechanica Sinica, 2014, 30(3): 301-309.

● [44] Yu Y., Baoyin H. Resonant orbits in the vicinity of asteroid 216 Kleopatra. Astrophysics and Space Science, 2013, 343(1): 75-82.

● [45] Yu Y., Baoyin H., Li J. Dynamic modeling and analysis of space webs. Science China Physics, Mechanics & Astronomy, 2011, 54(4): 783-791.

● [46] Yu Y., Michel P., Schwartz S. R., Naidu S. P., Benner L. A. M. Ejecta cloud from the AIDA space project kinetic impact on the secondary of a binary asteroid: I. mechanical environment and dynamical model. Icarus, 2017, 282: 313-325.

● [47] Yu Y., Baoyin H., Jiang Y. Construct the natural families of periodic orbits near irregular bodies. Monthly notices of the royal astronomical society. Monthly Notices of the Royal Astronomical Society, 2015, 453(3): 3269-3277.

● [48] Yu Y., Richardson D. C., Michel P., Schwartz S. R., Ballouz R. Numerical predictions of surface effects during the 2029 close approach of asteroid 99942 Apophis. Icarus. 2014, 242: 82-96.

● [49] Yu Y., Baoyin H. Orbital dynamics in the vicinity of asteroid 216 Kleopatra. Astronomical Journal, 2012, 143, 62.

● [50] Yu Y., Baoyin H. Generating families of 3D periodic orbits about asteroids. Monthly Notices of the Royal Astronomical Society, 2012, 427(1): 872-881.

● [51] Yu Y., Michel P., Hirabayashi M., et al. The Dynamical Complexity of Surface Mass Shedding from a Top-shaped Asteroid near the Critical Spin Limit. AJ, 2018, 156, 59.

● [52] Yu Y., Michel P. Ejecta cloud from the AIDA space project kinetic impact on the secondary of a binary asteroid: II. Fates and evolutionary dependencies. Icarus, 2018, 312, 128. .2019

● [1]光華大學獎學金

● [2]2006年，北京航空航天大學優秀畢業生

● [3]2010年，SMC高田一等獎學金

● [4]2011年，清華大學博士新生獎學金

● [5]2012年，SMC高田一等獎學金

● [6]2013年，研究生國家獎學金

● [7]2014年，清華大學優秀博士論文獎

● [8]2016年，Springer These Recognizing Outstanding Ph.D. Research

● [9]2018年，北京航空航天大學青年拔尖人才

● [10]2018年，北京市青年人才托舉工程

● [11]2020年，國家自然科學科學基金委優秀青年基金項目

● [12]2022年1月，國際編號為42175號的小行星，以中國科學家於洋的名字命名為“Yuyang”星。

[1]2019年—今，擔任北京航空航天大學航空學院動力學與控制系支部書記

[2]2018年—今，北京力學會青年工作委員會委員

[3]《力學學報》青年編委

[4]2018年—今，美國地球物理學會（AGU）會員

[5]2017年—今，美國航空航天學會（AIAA）會員

[6]2019年—今，擔任期刊《TAES》《Nature Astronomy》《JGCD》《MNRAS》論文評審

[7]2018年—今，擔任期刊《Nature Astronomy》《Astrodynamics》論文評審

驕傲！一顆小行星以滄州“80后”名字命名

於洋是國家自然科學基金優秀青年科學基金獲得者，多年來，於洋致力於深空探測動力學與控制方向的研究，其中關於小天體近地交會過程表面效應的研究被《科學》雜誌網站評論報道，得到國內外同行的高度評價；關於陀螺形小行星風化層演化機制的研究成果發表於《自然·天文學》子刊。相關研究成果服務於國際小行星探測任務DART、Hera和中國小行星探測任務“鄭和”的預研論證。

這次國際天文聯合會小天體命名公告中指出，於洋教授因在不規則小天體軌道動力學和小天體演化方向取得的研究成果而獲得此次命名表彰。據了解，小行星的命名是一項國際性、永久性的崇高榮譽，必須得到國際小行星命名委員會的審批。命名一旦獲國際組織批准，將成為該天體的永久星名，並為世界各國所認可。此前已有多顆以袁隆平、錢學森、屠呦呦等中國科學家命名的小行星。