Please use this identifier to cite or link to this item: http://hdl.handle.net/20.500.12666/504
Title: The MetNet vehicle: a lander to deploy environmental stations for local and global investigations of Mars
Authors: Harri, A. M.
Pichkadze, K.
Zeleny, L.
Vázquez, L.
Schmidt, W.
Alexashkin, S.
Korablev, O.
Guerrero, H.
Heilimo, J.
Uspensky, M.
Finchenko, V.
Linkin, V.
Arruego, I.
Genzer, M.
Lipatov, A.
Polkko, J.
Paton, M.
Savijärvi, H.
Haukka, H.
Siili, T.
Khovanskov, V.
Ostesko, B.
Poroshin, A.
Díaz Michelena, M.
Siikonen, T.
Palin, M.
Vorontsov, V.
Polyakov, A.
Valero, F.
Kemppinen, O.
Leinonen, J.
Romero, P.
Keywords: MetNet Vehicle;Mars
Issue Date: 24-Feb-2017
Publisher: European Geoscience Union (EGU)
DOI: 10.5194/gi-6-103-2017
Published version: https://gi.copernicus.org/articles/6/103/2017/gi-6-103-2017.html
Citation: Geoscientific Instrumentation, Methods and Data Systems
Abstract: nvestigations of global and related local phenomena on Mars such as atmospheric circulation patterns, boundary layer phenomena, water, dust and climatological cycles and investigations of the planetary interior would benefit from simultaneous, distributed in situ measurements. Practically, such an observation network would require low-mass landers, with a high packing density, so a large number of landers could be delivered to Mars with the minimum number of launchers. The Mars Network Lander (MetNet Lander; MNL), a small semi-hard lander/penetrator design with a payload mass fraction of approximately 17 %, has been developed, tested and prototyped. The MNL features an innovative Entry, Descent and Landing System (EDLS) that is based on inflatable structures. The EDLS is capable of decelerating the lander from interplanetary transfer trajectories down to a surface impact speed of 50–70 m s−1 with a deceleration of < 500 g for < 20 ms. The total mass of the prototype design is ≈ 24 kg, with ≈ 4 kg of mass available for the payload. The EDLS is designed to orient the penetrator for a vertical impact. As the payload bay will be embedded in the surface materials, the bay's temperature excursions will be much less than if it were fully exposed on the Martian surface, allowing a reduction in the amount of thermal insulation and savings on mass. The MNL is well suited for delivering meteorological and atmospheric instruments to the Martian surface. The payload concept also enables the use of other environmental instruments. The small size and low mass of a MNL makes it ideally suited for piggy-backing on larger spacecraft. MNLs are designed primarily for use as surface networks but could also be used as pathfinders for high-value landed missions.
Description: How to cite. Harri, A.-M., Pichkadze, K., Zeleny, L., Vazquez, L., Schmidt, W., Alexashkin, S., Korablev, O., Guerrero, H., Heilimo, J., Uspensky, M., Finchenko, V., Linkin, V., Arruego, I., Genzer, M., Lipatov, A., Polkko, J., Paton, M., Savijärvi, H., Haukka, H., Siili, T., Khovanskov, V., Ostesko, B., Poroshin, A., Diaz-Michelena, M., Siikonen, T., Palin, M., Vorontsov, V., Polyakov, A., Valero, F., Kemppinen, O., Leinonen, J., and Romero, P.: The MetNet vehicle: a lander to deploy environmental stations for local and global investigations of Mars, Geosci. Instrum. Method. Data Syst., 6, 103–124, https://doi.org/10.5194/gi-6-103-2017, 2017.
URI: http://hdl.handle.net/20.500.12666/504
E-ISSN: 2193-0864
ISSN: 2193-0856
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