Manned sample return mission to phobos: A technology demonstration for human exploration of Mars

Natasha Bosanac; Ana Diaz; Victor Dang; Frans Ebersohn; Stefanie Gonzalez; Jay Qi; Nicholas Sweet; Norris Tie; Gianluca Valentino; Abigail Fraeman; Alison Gibbings; Tyler Maddox; Chris Nie; Jamie Rankin; Tiago Rebelo; Graeme Taylor

doi:10.1109/AERO.2014.6836251

Manned sample return mission to phobos: A technology demonstration for human exploration of Mars

Natasha Bosanac, Ana Diaz, Victor Dang, Frans Ebersohn, Stefanie Gonzalez, Jay Qi, Nicholas Sweet, Norris Tie, Gianluca Valentino, Abigail Fraeman, Alison Gibbings, Tyler Maddox, Chris Nie, Jamie Rankin, Tiago Rebelo, Graeme Taylor

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

5 Scopus citations

Abstract

In order to reduce the knowledge gap associated with long-duration human exploration of Mars, a manned precursor mission destined for one of the Martian moons is currently considered a feasible option for testing and demonstrating critical technologies within the Martian system. The 2013 Caltech Space Challenge, a student mission design competition held at the California Institute of Technology, addressed the interest in human precursor missions. Two teams of 16 students, with varying backgrounds and nationalities, were allocated five days to design a mission to land at least one human on a Martian moon and return them, along with a sample, safely to Earth with a launch date no later than January 1, 2041. This paper provides an overview of Technology Advancing Phobos Exploration and Return (TAPER-1), the manned Phobos sample return mission devised by Team Explorer. As the first manned mission to the Martian system, TAPER-1 is designed as an opposition class mission to Phobos, carrying four astronauts, with a launch date in April 2033, and a nominal time of flight of 456 days. In addition, this paper demonstrates the feasibility and value of exposing students to the process of rapid mission design.

Original language	English (US)
Title of host publication	2014 IEEE Aerospace Conference
Publisher	IEEE Computer Society
ISBN (Print)	9781479916221
DOIs	https://doi.org/10.1109/AERO.2014.6836251
State	Published - 2014
Externally published	Yes
Event	2014 IEEE Aerospace Conference - Big Sky, MT, United States Duration: Mar 1 2014 → Mar 8 2014

Publication series

Name	IEEE Aerospace Conference Proceedings
ISSN (Print)	1095-323X

Conference

Conference	2014 IEEE Aerospace Conference
Country/Territory	United States
City	Big Sky, MT
Period	3/1/14 → 3/8/14

All Science Journal Classification (ASJC) codes

Aerospace Engineering
Space and Planetary Science

Access to Document

10.1109/AERO.2014.6836251

Cite this

Bosanac, N., Diaz, A., Dang, V., Ebersohn, F., Gonzalez, S., Qi, J., Sweet, N., Tie, N., Valentino, G., Fraeman, A., Gibbings, A., Maddox, T., Nie, C., Rankin, J., Rebelo, T., & Taylor, G. (2014). Manned sample return mission to phobos: A technology demonstration for human exploration of Mars. In 2014 IEEE Aerospace Conference Article 6836251 (IEEE Aerospace Conference Proceedings). IEEE Computer Society. https://doi.org/10.1109/AERO.2014.6836251

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title = "Manned sample return mission to phobos: A technology demonstration for human exploration of Mars",

abstract = "In order to reduce the knowledge gap associated with long-duration human exploration of Mars, a manned precursor mission destined for one of the Martian moons is currently considered a feasible option for testing and demonstrating critical technologies within the Martian system. The 2013 Caltech Space Challenge, a student mission design competition held at the California Institute of Technology, addressed the interest in human precursor missions. Two teams of 16 students, with varying backgrounds and nationalities, were allocated five days to design a mission to land at least one human on a Martian moon and return them, along with a sample, safely to Earth with a launch date no later than January 1, 2041. This paper provides an overview of Technology Advancing Phobos Exploration and Return (TAPER-1), the manned Phobos sample return mission devised by Team Explorer. As the first manned mission to the Martian system, TAPER-1 is designed as an opposition class mission to Phobos, carrying four astronauts, with a launch date in April 2033, and a nominal time of flight of 456 days. In addition, this paper demonstrates the feasibility and value of exposing students to the process of rapid mission design.",

author = "Natasha Bosanac and Ana Diaz and Victor Dang and Frans Ebersohn and Stefanie Gonzalez and Jay Qi and Nicholas Sweet and Norris Tie and Gianluca Valentino and Abigail Fraeman and Alison Gibbings and Tyler Maddox and Chris Nie and Jamie Rankin and Tiago Rebelo and Graeme Taylor",

year = "2014",

doi = "10.1109/AERO.2014.6836251",

language = "English (US)",

isbn = "9781479916221",

series = "IEEE Aerospace Conference Proceedings",

publisher = "IEEE Computer Society",

booktitle = "2014 IEEE Aerospace Conference",

address = "United States",

note = "2014 IEEE Aerospace Conference ; Conference date: 01-03-2014 Through 08-03-2014",

}

Bosanac, N, Diaz, A, Dang, V, Ebersohn, F, Gonzalez, S, Qi, J, Sweet, N, Tie, N, Valentino, G, Fraeman, A, Gibbings, A, Maddox, T, Nie, C, Rankin, J, Rebelo, T & Taylor, G 2014, Manned sample return mission to phobos: A technology demonstration for human exploration of Mars. in 2014 IEEE Aerospace Conference., 6836251, IEEE Aerospace Conference Proceedings, IEEE Computer Society, 2014 IEEE Aerospace Conference, Big Sky, MT, United States, 3/1/14. https://doi.org/10.1109/AERO.2014.6836251

TY - GEN

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AU - Bosanac, Natasha

AU - Diaz, Ana

AU - Dang, Victor

AU - Ebersohn, Frans

AU - Gonzalez, Stefanie

AU - Qi, Jay

AU - Sweet, Nicholas

AU - Tie, Norris

AU - Valentino, Gianluca

AU - Fraeman, Abigail

AU - Gibbings, Alison

AU - Maddox, Tyler

AU - Nie, Chris

AU - Rankin, Jamie

AU - Rebelo, Tiago

AU - Taylor, Graeme

PY - 2014

Y1 - 2014

N2 - In order to reduce the knowledge gap associated with long-duration human exploration of Mars, a manned precursor mission destined for one of the Martian moons is currently considered a feasible option for testing and demonstrating critical technologies within the Martian system. The 2013 Caltech Space Challenge, a student mission design competition held at the California Institute of Technology, addressed the interest in human precursor missions. Two teams of 16 students, with varying backgrounds and nationalities, were allocated five days to design a mission to land at least one human on a Martian moon and return them, along with a sample, safely to Earth with a launch date no later than January 1, 2041. This paper provides an overview of Technology Advancing Phobos Exploration and Return (TAPER-1), the manned Phobos sample return mission devised by Team Explorer. As the first manned mission to the Martian system, TAPER-1 is designed as an opposition class mission to Phobos, carrying four astronauts, with a launch date in April 2033, and a nominal time of flight of 456 days. In addition, this paper demonstrates the feasibility and value of exposing students to the process of rapid mission design.

AB - In order to reduce the knowledge gap associated with long-duration human exploration of Mars, a manned precursor mission destined for one of the Martian moons is currently considered a feasible option for testing and demonstrating critical technologies within the Martian system. The 2013 Caltech Space Challenge, a student mission design competition held at the California Institute of Technology, addressed the interest in human precursor missions. Two teams of 16 students, with varying backgrounds and nationalities, were allocated five days to design a mission to land at least one human on a Martian moon and return them, along with a sample, safely to Earth with a launch date no later than January 1, 2041. This paper provides an overview of Technology Advancing Phobos Exploration and Return (TAPER-1), the manned Phobos sample return mission devised by Team Explorer. As the first manned mission to the Martian system, TAPER-1 is designed as an opposition class mission to Phobos, carrying four astronauts, with a launch date in April 2033, and a nominal time of flight of 456 days. In addition, this paper demonstrates the feasibility and value of exposing students to the process of rapid mission design.

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M3 - Conference contribution

AN - SCOPUS:84903978164

SN - 9781479916221

T3 - IEEE Aerospace Conference Proceedings

BT - 2014 IEEE Aerospace Conference

PB - IEEE Computer Society

Y2 - 1 March 2014 through 8 March 2014

ER -

Manned sample return mission to phobos: A technology demonstration for human exploration of Mars

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