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Realms of Space Architecture

Realms of Space Architecture. Space Environments Orbital Deep space Small scale to large scale urbanism Planetary Surface Environments Lunar, Mars, etc ISRU-derived Outposts to colonization Earth-based space architecture Space launch infrastructure Architecture for extreme environments

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Realms of Space Architecture

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  1. Realms of Space Architecture • Space Environments • Orbital • Deep space • Small scale to large scale urbanism • Planetary Surface Environments • Lunar, Mars, etc • ISRU-derived • Outposts to colonization • Earth-based space architecture • Space launch infrastructure • Architecture for extreme environments • Spin-off technologies

  2. Introduction to space architecture

  3. Introduction to Space Architecture • Chapter 1: “What is Space Architecture?” Sherwood • Chapter 2: “Vernacular of Space Architecture” Kennedy

  4. Orbital Architecture

  5. Orbital Architecture • Chapter 3: “Design Constraints for Orbital Architecture” Sherwood • Chapter 4: “Performance of the International Space Station Interior” Jones • Chapter 5: “International Space Station Crew Quarters” Broyan, Borrego, Bahr • Chapter 6: “Retrofitting the International Space Station” Fairburn • Chapter 7: Alternative Space Station Module Interiors” Nixon, Okushi

  6. Chapter 8: “TransHab Project” Kennedy • Chapter 9: “Design of TransHab-Based System” Herman • Chapter 10: “Space Hotel Based on the TransHab” Favata • Chapter 11: “Habitats for Long-Duration Missions” Sherwood, Capps • Chapter 12: “Artificial Gravity” Hall • Chapter 13: “Orbital Cities” Sherwood

  7. Planet surface architecture

  8. Planet Surface Architecture • Chapter 14: “Design Constraints for Planet Surface Architecture” Sherwood, Toups • Chapter 15: “Lunar-Base Structures” Cohen, Benaroya • Chapter 16: “Lunar Habitat Concepts” Toups, Kennedy • Chapter 17: “Lunar Surface Airlocks” Griffin • Chapter 18: “Habot Concept” Cohen, Tisdale • Chapter 19: “Roving Laboratory” Vogler, Vittori, Ransom, Granziera

  9. Chapter 20: “Flat-Floor Inflatable Structures” Lowe • Chapter 21: “TRIGON Modular Robotic Construction System” Howe, Gibson • Chapter 22: “Lunar-Base Site Design” Sherwood • Chapter 23: “Mars Habitat Using Locally Produced Materials” Lansdorp, von Bengtson • Chapter 24: “Lunar Architecture and Urbanism” Sherwood

  10. Earth-based space architecture

  11. Earth-base Space Architecture • Chapter 25: “Human-Space-Mission Simulators” Mohanty, Fairburn, Imhof, Ransom, Vogler • Chapter 26: “Antarctic Habitat Analogue” Toups, Cadogan, Scheir • Chapter 27: “Halley VI Antarctic Research Station” Broughton • Chapter 28: “Planetary and Lunar Surface Simulator” Nixon, Ovrum, Clancey • Chapter 29: “Spaceport Design” Adams, Petrov • Chapter 30: “Space Architecture for the Mother Ship: Bringing it Home” Vogler, Vittori

  12. Editors • A. Scott Howe • has a PhD in architecture from University of Michigan, and a second PhD in Industrial and Manufacturing Systems Engineering, focusing on self-assembling structures and modular robotic construction systems. Dr. Howe is currently located at Jet Propulsion Laboratory (JPL) in the Mission Systems Concepts Section, Exploration Systems Concepts group. Before joining JPL, Dr. Howe served 10 years working in Japan on building design, kit-of-parts modular building systems, and automated construction research with Kajima Corporation, Shimizu, and Hazama, and as faculty member at University of Oregon for 3 years, and Hong Kong University for 6 years. • Brent Sherwood • manages strategic planning and project formulation at NASA’s Jet Propulsion Laboratory.  He has been at JPL for five years, following 17 years at the Boeing Company.  He earned an M.S. In aerospace engineering from the University of Maryland, after a Master of Architecture from the Yale School of Architecture, and a B.A. From Yale University.  He writes and speaks in fields related to the human settlement of space.

  13. Contributing Authors • Constance Adams, Synthesis International • Juergen F. Bahr, ERC Inc • Haym Benaroya, Rutgers University • Melissa Ann Borrego, MEI Technologies Inc • Hugh Broughton, Hugh Broughton Architects • James Lee Broyan, NASA Johnson Space Center • David Cadogan, ILC Dover • Stephen D. Capps, Boeing Company • Paul Clancy, 4CON Space S.A.R.L. • Marc M. Cohen, Northrop Grumman Aerospace Systems • Susan Fairburn, Fibre Design Inc • Paola Favata, architect • Ian Gibson, National University of Singapore • Loris Granziera, independent consultant • Brand Griffin, Gray Research • Theodore W. Hall, University of Michigan • Matthew Herman, Buro Happold architects & engineers • A. Scott Howe, NASA Jet Propulsion Laboratory

  14. Contributing Authors (cont) • Barbara Imhof, LIQUIFER Systems Group • Bas Landsdorp, Ampyx Power • Rod Jones, NASA Johnson Space Center • Kriss J. Kennedy, NASA Johnson Space Center • James Lowe, independent researcher • Susmita Mohanty, Earth 2 Orbit • David Nixon, Altus Associates, and Astrocourier (Ireland) Ltd • Jun Okushi, Okushi Architects • Truls Ovrum, Altus Associates • Georgi Petrov, Synthesis International • Stephen Ransom, independent aerospace consultant • Craig Scheir, ILC Dover • Brent Sherwood, NASA Jet Propulsion Laboratory • Ross Tisdale, architect • Larry Toups, NASA Johnson Space Center • Arturo Vittori, Architecture + Vision • Andreas Vogler, Architecture + Vision • Kristian von Bengtson, Copenhagen Suborbitals

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