Results 131 to 140 of about 6,611 (148)
About feasibility of SpaceX's human exploration Mars mission scenario with Starship. [PDF]
Sci RepMaiwald V +4 more
europepmc +1 more source
Integrated shielding systems for manned interplanetary spaceflight
AIP Conference Proceedings, 1992 The radiation environment encountered by manned interplanetary missions can have a severe impact on both vehicle design and mission performance. This study investigates the potential impact of radiation protection on interplanetary vehicle design for a manned Mars mission. A systems approach was used to investigate the radiation protection requirements
Jeffrey A. George
openaire +3 more sources
Aerospace Medicine and Human Performance, 2022 INTRODUCTION: Dynamic visual acuity (DVA) refers to the ability of the eye to discern detail in a moving object and plays an important role whenever rapid physical responses to environmental changes are required, such as while performing tasks onboard a space shuttle.
Ethan, Waisberg +5 more
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Aquarius, a reusable water-based interplanetary human spaceflight transport
Acta Astronautica, 2016 Abstract Attributes of a reusable interplanetary human spaceflight transport are proposed and applied to example transits between the Earth/Moon system and Deimos, the outer moon of Mars. Because the transport is 54% water by mass at an interplanetary departure, it is christened Aquarius. In addition to supporting crew hydration/hygiene, water aboard
Daniel R. Adamo, James S. Logan
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Radiation Protection for Human Interplanetary Spaceflight and Planetary Surface Operations
, 1993 Radiation protection issues are reviewed for five categories of radiation exposure during human missions to the moon and Mars: trapped radiation belts, galactic cosmic rays, solar flare particle events, planetary surface emissions, and on-board radiation sources.
B. C. Clark
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AN OPEN CYCLE LlFE SUPPORT SYSTEM FOR MANNED INTERPLANETARY SPACEFLIGHT
Stepping Stones to Mars Meeting, 1966 J. Reece Roth
openaire +2 more sources
Space Station Freedom technology for manned interplanetary spaceflight
Space Programs and Technologies Conference, 1992 Darrell Boyer
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Chapter 7: Medical Support for Interplanetary Human Spaceflights
, 2009 A. I. Grigoriev +4 more
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