ExoMars Atmospheric Mars Entry and Landing Investigations and Analysis (AMELIA)

被引:0
作者
Francesca Ferri
Özgür Karatekin
Stephen R. Lewis
François Forget
Alessio Aboudan
Giacomo Colombatti
Carlo Bettanini
Stefano Debei
Bart Van Hove
Veronique Dehant
Ari-Matti Harri
Mark Leese
Teemu Mäkinen
Ehouarn Millour
Ingo Muller-Wodarg
Gian Gabriele Ori
Andrea Pacifici
Sebastien Paris
Manish Patel
Mark Schoenenberger
Jeffrey Herath
Tero Siili
Aymeric Spiga
Tetsuya Tokano
Martin Towner
Paul Withers
Sami Asmar
Dirk Plettemeier
机构
[1] Università degli Studi di Padova,Centro di Ateneo di Studi e Attività Spaziali “Giuseppe Colombo” CISAS
[2] Royal Observatory of Belgium (ROB),School of Physical Sciences
[3] The Open University,Laboratoire de Météorologie Dynamique/Institut Pierre
[4] Centre National de la Recherche Scientifique,Simon Laplace (LMD/IPSL), Sorbonne Universités, UPMC Univ Paris 06
[5] Università degli Studi di Padova,Department of Industrial Engineering
[6] Finnish Meteorological Institute (FMI),Institut für Geophysik und Meteorologie
[7] Imperial College London,Department of Applied Geology
[8] International Research School of Planetary Sciences,Jet Propulsion Laboratory
[9] Von Karman Institute,undefined
[10] NASA Langley Research Center,undefined
[11] Universität zu Köln Albertus-Magnus-Platz,undefined
[12] Curtin University,undefined
[13] Boston University,undefined
[14] California Institute of Technology–NASA,undefined
[15] Technische Universität Dresden,undefined
来源
Space Science Reviews | 2019年 / 215卷
关键词
Mars; Entry Descent and Landing (EDL); Dynamical models; Trajectory; Attitude; Atmospheric investigations;
D O I
暂无
中图分类号
学科分类号
摘要
The entry, descent and landing of Schiaparelli, the ExoMars Entry, descent and landing Demonstrator Module (EDM), offered a rare (once-per-mission) opportunity for in situ investigations of the martian environment over a wide altitude range. The aim of the ExoMars AMELIA experiment was to exploit the Entry, Descent and Landing System (EDLS) engineering measurements for scientific investigations of Mars’ atmosphere and surface. Here we present the simulations, modelling and the planned investigations prior to the Entry, Descent and Landing (EDL) event that took place on 19th October 2016. Despite the unfortunate conclusion of the Schiaparelli mission, flight data recorded during the entry and the descent until the loss of signal, have been recovered. These flight data, although limited and affected by transmission interruptions and malfunctions, are essential for investigating the anomaly and validating the EDL operation, but can also contribute towards the partial achievement of AMELIA science objectives.
引用
收藏
相关论文
共 264 条
[1]  
Aboudan A.(2008)Huygens probe entry trajectory and attitude estimated simultaneously with Titan atmospheric structure by Kalman filtering Planet. Space Sci. 56 573-585
[2]  
Colombatti G.(2018)ExoMars 2016 Schiaparelli module trajectory and atmospheric profiles reconstruction: analysis of the on-board inertial and radar measurements Space Sci. Rev. 214 97-802
[3]  
Ferri F.(2005)The vertical profile of winds on Titan Nature 438 800-822
[4]  
Angrilli F.(2011)Mars Phoenix entry, descent, and landing trajectory and atmosphere reconstruction J. Spacecr. Rockets 48 809-105
[5]  
Aboudan A.(2018)ExoMars 2016: Schiaparelli coasting, entry and descent post flight mission analysis Acta Astronaut. 149 93-1075
[6]  
Colombatti G.(2014)Reconstruction of atmospheric properties from Mars Science Laboratory entry, descent, and landing J. Spacecr. Rockets 51 1062-612
[7]  
Bettanini C.(2008)Huygens probe entry dynamic model and accelerometer data analysis Planet. Space Sci. 56 601-808
[8]  
Ferri F.(2011)Entry, descent, and landing performance of the Mars Phoenix lander J. Spacecr. Rockets 48 798-24176
[9]  
Lewis S.(2018)The DREAMS experiment onboard the Schiaparelli Module of the ExoMars 2016 mission: 1 design, performances and expected results Space Sci. Rev. 214 103-791
[10]  
Van Hove B.(1999)Improved general circulation models of the Martian atmosphere from the surface to above 80 km J. Geophys. Res. 104 24155-1357
12345678910