2017
DOI: 10.5194/gi-6-103-2017
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The MetNet vehicle: a lander to deploy environmental stations for local and global investigations of Mars

Abstract: Abstract. Investigations 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… Show more

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Cited by 10 publications
(5 citation statements)
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“…Studies of low‐level circulations in the Martian atmosphere would thus benefit from collection of additional data more sensitive to near‐surface wind or pressure fields. Technological options for collecting such data include lander networks (e.g., Harri et al., 2017), radio occultation constellations (e.g., Kursinski et al., 2012), and orbiting wind lidars (e.g., Cremons et al., 2020). Alternatively, it may be possible to derive improved constraints on low‐level zonal geostrophic winds from existing radio occultation and/or lander data.…”
Section: Summary and Discussionmentioning
confidence: 99%
“…Studies of low‐level circulations in the Martian atmosphere would thus benefit from collection of additional data more sensitive to near‐surface wind or pressure fields. Technological options for collecting such data include lander networks (e.g., Harri et al., 2017), radio occultation constellations (e.g., Kursinski et al., 2012), and orbiting wind lidars (e.g., Cremons et al., 2020). Alternatively, it may be possible to derive improved constraints on low‐level zonal geostrophic winds from existing radio occultation and/or lander data.…”
Section: Summary and Discussionmentioning
confidence: 99%
“…Studies of low-level circulations in the Martian atmosphere would thus benefit from collection of additional data more sensitive to near-surface wind or pressure fields. Technological options for collecting such data include lander networks (e.g., Harri et al, 2017), radio occultation constellations (e.g., Kursinski et al, 2012), and orbiting wind lidars (e.g., Cremons et al, 2020). Alternatively, it may be possible to derive improved constraints on low-level zonal geostrophic winds from existing radio occultation and/or lander data.…”
Section: Summary and Discussionmentioning
confidence: 99%
“…Initially developed and validated in France, this sensor was manufactured for MTK by IKI RAS (Khorkin et al, 2023). Some of the Mars-96 small-station sensors were also planned for installation on small MetNet landing modules developed by Lavochkin Association and IKI RAS, and commissioned by FMI (Harri et al, 2017). Spanish colleagues (Univ.…”
Section: Meteorological Packages Mtk and Habitmentioning
confidence: 99%