Conceptual Human-System Interface Design for a Lunar Access Vehicle

Conceptual Human-System Interface Design for a Lunar Access Vehicle

In support of the vision for humans to establish a large scale, economically viable, permanent human settlement on the Moon within the next 25 years (Space Frontier Foundation, 2005), the next generation lunar landing vehicle must be capable of achieving pinpoint, anytime, anywhere safe landing o...

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Main Authors: Smith, Cristin, Essama, Stephane, Duppen, Mark, Marquez, Jessica, Cummings, Mary, Wang, Enlie
Other Authors: Massachusetts Institute of Technology. Dept. of Aeronautics and Astronautics. Humans and Automation Laboratory
Format: Technical Report
Language:en_US
Published: MIT Humans and Automation Laboratory 2009
Online Access:http://hdl.handle.net/1721.1/46750
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author Smith, Cristin
Essama, Stephane
Duppen, Mark
Marquez, Jessica
Cummings, Mary
Wang, Enlie
author2 Massachusetts Institute of Technology. Dept. of Aeronautics and Astronautics. Humans and Automation Laboratory
author_facet Massachusetts Institute of Technology. Dept. of Aeronautics and Astronautics. Humans and Automation Laboratory
Smith, Cristin
Essama, Stephane
Duppen, Mark
Marquez, Jessica
Cummings, Mary
Wang, Enlie
author_sort Smith, Cristin
collection MIT
description In support of the vision for humans to establish a large scale, economically viable, permanent human settlement on the Moon within the next 25 years (Space Frontier Foundation, 2005), the next generation lunar landing vehicle must be capable of achieving pinpoint, anytime, anywhere safe landing on the lunar surface with high precision (10- 100m). In addition, this vehicle should support both autonomous and manned lunar missions (NASA ASO-1160). Because of advances in technology over the past thirty-five years since the Apollo landings, the role of the human and automated systems in a new lunar lander system must be reevaluated and redesigned. This report details the design approach and resultant preliminary, conceptual design concepts for a Human-System Interface (H-SI) for a Lunar Access Vehicle (LAV).
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spelling mit-1721.1/467502019-04-11T00:37:06Z Conceptual Human-System Interface Design for a Lunar Access Vehicle Smith, Cristin Essama, Stephane Duppen, Mark Marquez, Jessica Cummings, Mary Wang, Enlie Massachusetts Institute of Technology. Dept. of Aeronautics and Astronautics. Humans and Automation Laboratory In support of the vision for humans to establish a large scale, economically viable, permanent human settlement on the Moon within the next 25 years (Space Frontier Foundation, 2005), the next generation lunar landing vehicle must be capable of achieving pinpoint, anytime, anywhere safe landing on the lunar surface with high precision (10- 100m). In addition, this vehicle should support both autonomous and manned lunar missions (NASA ASO-1160). Because of advances in technology over the past thirty-five years since the Apollo landings, the role of the human and automated systems in a new lunar lander system must be reevaluated and redesigned. This report details the design approach and resultant preliminary, conceptual design concepts for a Human-System Interface (H-SI) for a Lunar Access Vehicle (LAV). Prepared For Draper Labs Award #: SC001-018 PI: Dava Newman 2009-09-18T19:15:53Z 2009-09-18T19:15:53Z 2005 Technical Report http://hdl.handle.net/1721.1/46750 en_US HAL Reports;HAL2005-04 application/pdf MIT Humans and Automation Laboratory
spellingShingle Smith, Cristin
Essama, Stephane
Duppen, Mark
Marquez, Jessica
Cummings, Mary
Wang, Enlie
Conceptual Human-System Interface Design for a Lunar Access Vehicle
title Conceptual Human-System Interface Design for a Lunar Access Vehicle
title_full Conceptual Human-System Interface Design for a Lunar Access Vehicle
title_fullStr Conceptual Human-System Interface Design for a Lunar Access Vehicle
title_full_unstemmed Conceptual Human-System Interface Design for a Lunar Access Vehicle
title_short Conceptual Human-System Interface Design for a Lunar Access Vehicle
title_sort conceptual human system interface design for a lunar access vehicle
url http://hdl.handle.net/1721.1/46750
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AT essamastephane conceptualhumansysteminterfacedesignforalunaraccessvehicle
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AT marquezjessica conceptualhumansysteminterfacedesignforalunaraccessvehicle
AT cummingsmary conceptualhumansysteminterfacedesignforalunaraccessvehicle
AT wangenlie conceptualhumansysteminterfacedesignforalunaraccessvehicle

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