In-Space Structural Assembly: Applications and Technology | Zendy

W. Keith Belvin | Zendy; William R. Doggett | Zendy; Judith J. Watson | Zendy; John T. Dorsey | Zendy; Jay E. Warren | Zendy; Thomas C. Jones | Zendy; Erik Komendera | Zendy; Troy Mann | Zendy; Lynn M. Bowman | Zendy

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In-Space Structural Assembly: Applications and Technology

Author(s) -

W. Keith Belvin,

William R. Doggett,

Judith J. Watson,

John T. Dorsey,

Jay E. Warren,

Thomas C. Jones,

Erik Komendera,

Troy Mann,

Lynn M. Bowman

Publication year - 2016

Publication title -

nasa sti repository (national aeronautics and space administration)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2016-2163

Subject(s) - computer science , space (punctuation) , space technology , engineering , aerospace engineering , operating system

As NASA exploration moves beyond earth's orbit, the need exists for long duration space systems that are resilient to events that compromise safety and performance. Fortunately, technology advances in autonomy, robotic manipulators, and modular plug-and-play architectures over the past two decades have made in-space vehicle assembly and servicing possible at acceptable cost and risk. This study evaluates future space systems needed to support scientific observatories and human/robotic Mars exploration to assess key structural design considerations. The impact of in-space assembly is discussed to identify gaps in structural technology and opportunities for new vehicle designs to support NASA's future long duration missions.

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