Jump to content
Join the Alien Search, login or register FREE on Aliens and Space Forum
Members Can Post Anonymously On This Site

Designing Space Exploration With the Human in Mind

NASA

By NASA
in NASA

 Share

Recommended Posts

  • Publishers
NASA Mentor

NASA

Posted
  • Publishers
Posted

When designing a new spacecraft or exploration vehicle, there is intense focus on its technical performance. Do its systems perform as expected? What kind of power does it need? Will it safely reach its destination?

Equally important, however, is whether that vehicle also works for the humans inside. Can astronauts easily reach critical controls? Do the seats conform to a crew member regardless of their height and body size? Does the layout of crew workstations, translation paths, stowage, and other items support effective working and living conditions?

Those are just a few of the questions NASA’s Center for Design and Space Architecture (CDSA) seeks to answer. Based within the Human Health and Performance Directorate at Johnson Space Center in Houston, the CDSA is NASA’s conceptual, human-centered design studio. It creates advanced concepts for spacecraft, exploration vehicles, and habitats that put crew needs first. The team provides a full spectrum of design services, from concept sketches to CAD models, to scaled mockups and virtual reality (VR), to full-size prototype fabrication.

Three male NASA engineers perform a window node visibility study on the mockup of the Space Exploration Vehicle.
Carl Conlee, Evan Twyford, and Dr. Robert Howard perform a window node visibility study on the mockup of the Space Exploration Vehicle.
NASA

The CDSA has been an integral partner in the design of everything from dining tables for the International Space Station to ergonomic seats for the Orion spacecraft, and private sleeping bunks for the Space Exploration Vehicle (also known as the Small Pressurized Rover). The multidisciplinary team also played key roles in the design and construction of analog habitats onsite at Johnson, including the Human Exploration Research Analog (HERA) and the Crew Health And Performance Exploration Analog (CHAPEA) habitats where volunteer crews recently completed simulated Mars missions.

Dr. Robert Howard, CDSA co-lead and habitability domain lead, explained that the current HERA habitat was initially developed as the ground-test version of a lunar habitat envisioned by the Constellation Program. The CDSA team built medical operations and suit maintenance workstations, stowage systems, cameras, and outfitting supplies for the habitat, known then as the Habitat Demonstration Unit. Later, the team added a galley, exercise and stowage space, and crew quarters to university-built inflatable upper decks. They also outfitted the interior of a hygiene module provided by the Jet Propulsion Laboratory, helped Kennedy Space Center’s plant growth team locate their experiments in the habitat, and worked with the Human Factors Engineering Laboratory to develop crew procedures for testing the habitats at Johnson and in Arizona.

“The plan was to excess the habitat when the program ended, but CDSA realized the asset was too valuable and we campaigned to find a new owner for the mockup,” Howard said. “That led to the birth of HERA. The Human Research Program now performs the day-to-day maintenance and conducts the HERA missions.”

A NASA engineer presents an all-white model of a lunar lander to a group of former NASA astronauts.
Dr. Robert Howard (left) briefs Apollo astronauts Gene Cernan, Neil Armstrong, and Harrison Schmitt on the Altair lunar lander mockup.
NASA

For CHAPEA, the CDSA worked with NASA teams and commercial partners to determine the habitat’s necessary functions and layout, assisted with furniture installation, provided design consultation and fabrication assistance for an external airlock, and designed and built a docking node.

Another part of the CDSA’s work is the development of NASA test units for partner-produced vehicles and spacecraft. “In the early phases of a project, these test units can help NASA understand what requirements we want to levy on the partner,” Howard explained. “Later, they can be used to emulate partner concepts and NASA can perform independent studies with them, either to assess partner capabilities or to predict the impacts of possible changes.”

The CDSA team can also build replicas of contractor mockups for crew training or additional testing. They are currently supporting development of lunar surface logistics, a pressurized rover, and Gateway components, too. 

Three NASA engineers conduct habitability testing inside a mockup of a Gateway space station module.
Center for Design and Space Architecture team members test a Gateway habitat mockup. From left are Brett Montoya, Taylor Phillips-Hungerford, and Zachary Taylor.
NASA/Robert Markowitz

In addition to Howard, the CDSA team includes Maijinn Chen, the technical discipline lead for space architecture, and Nathan Moore, the technical discipline lead for fabrication, as well as nearly a dozen contractors who serve as space architects, industrial designers, mechanical engineers, and VR developers. “It is a very multidisciplinary team, so we are able to leverage different skillsets to complete our work,” Howard said. “All of the team members are well-versed in design ideation, so we can collaborate when developing concepts, whether for high-level architectures, individual vehicle assets, subsystem components, or even crew-worn items.”

Howard explained that the CDSA almost always works as a sub-team within a larger effort. “We can support a team at any point in a spacecraft lifecycle, but it is best when we are brought in at the very beginning,” he said. “That is where human-centered design processes can have the greatest impact in improving a space system for the lowest cost. It is also very helpful in ensuring that the requirements levied on our contractors and international partners reflect the needs of the future astronaut crews.”

Howard can trace his passion for space exploration back to his early childhood. “I feel like I was born interested! My mom said when I was three, I might not watch ‘The Electric Company,’ but I would not miss ‘Star Trek’ or ‘Space 1999,” he said. “As I got older, I would gravitate toward the space section of the library and read anything I could about NASA. I was always more interested in human spaceflight than in unmanned vehicles and I suppose that was the beginning of my path towards habitability and human-centered design.”

For Howard, the most rewarding part of the CDSA team’s work is creating things that have never existed. “I love it when we find a way to do something that was previously considered impossible, or beyond the scope of what was considered likely,” he said. “I consider it a personal calling to find ways to make space more habitable for humanity.”

View the full article

Join the conversation

You can post now and register later. If you have an account, sign in now to post with your account.
Note: Your post will require moderator approval before it will be visible.

Guest
Reply to this topic...

×   Pasted as rich text.   Paste as plain text instead

  Only 75 emoji are allowed.

×   Your link has been automatically embedded.   Display as a link instead

×   Your previous content has been restored.   Clear editor

×   You cannot paste images directly. Upload or insert images from URL.

×
 Share
Go to topic listing

  • Similar Topics

    • NASA
      Roman Space Telescope Coronagraph Instrument Poster
      By NASA
      NASA’s Roman Coronagraph Instrument will greatly advance our ability to directly image exoplanets, or planets and disks around other stars.
      The Roman Coronagraph Instrument, a technology demonstration designed and built by NASA’s Jet Propulsion Laboratory, will fly aboard NASA’s next flagship astrophysics observatory, the Nancy Grace Roman Space Telescope.
      Coronagraphs work by blocking light from a bright object, like a star, so that the observer can more easily see a nearby faint object, like a planet. The Roman Coronagraph Instrument will use a unique suite of technologies including deformable mirrors, masks, high-precision cameras, and active wavefront sensing and control to detect planets 100 million times fainter than their stars, or 100 to 1,000 times better than existing space-based coronagraphs. The Roman Coronagraph will be capable of directly imaging reflected starlight from a planet akin to Jupiter in size, temperature, and distance from its parent star.
      Artwork Key
      1. The Nancy Grace Roman Space Telescope
      2. Exoplanet Count : Total number of exoplanets discovered at the time of poster release. This number is increasing all of the time.
      3. Nancy Grace Roman’s birth year : Nancy Grace Roman was born on May 16, 1925.  
      4. Color Filters : Filters block different wavelengths, or colors, of light.
      5. Exoplanet Camera
      6. Deformable Mirrors : Adjusts the wavefront of incoming light by changing the shape of a mirror with thousands of tiny pistons.
      7. Focal Plane Mask : This is a mask that helps to block starlight and reveal exoplanets.
      8. Lyot Stop Mask : This is a mask that helps to block starlight and reveal exoplanets.
      9. Fast Steering Mirror : This element corrects for telescope pointing jitter.
      10. Additional Coronagraph Masks : These masks block most of the glare from stars to reveal faint orbiting planets and dusty debris disks.
      Downloads
      Download the Digital Version of Poster
      Jan 14, 2025
      PDF ()


      Download Press Version (highest quality for print)
      Jan 14, 2025
      PDF ()


      Keep Exploring Discover More about Roman
      Latest Roman Stories



      Roman Observatory



      About Roman



      Coronagraph


      View the full article
    • NASA
      Roman Space Telescope Wide Field Instrument Poster
      By NASA
      The Wide-Field Instrument (WFI), the primary instrument aboard NASA’s Nancy Grace Roman Space Telescope, is a 300-megapixel visible and infrared camera that will allow scientists to perform revolutionary astrophysics surveys.  
      This specialized camera detects faint light across the cosmos and will be used to study a wide range of astrophysics topics including the expansion and acceleration of our universe, planets orbiting other stars in the Milky Way, and far off galaxies.
      WFI will conduct surveys to detect and measure billions of stars and galaxies along with rare phenomena that would otherwise be difficult or impossible to find. To survey large areas of sky, WFI uses a suite of 18 detectors that convert incoming light into electrical signals that are translated into images.
      While Roman will operate alongside other space telescopes like Hubble, WFI’s capabilities are pushing the boundaries of what is possible. Roman’s WFI has a similar sensitivity and resolution to Hubble, but WFI will capture images that cover about 100 times more sky in a single observation and will survey the sky up to 1,000 times faster.
      Artwork Key
      1. The Nancy Grace Roman Space Telescope
      2. Light Path : The light entering the telescope will take this path, bouncing off of multiple focusing mirrors and passing through filters or dispersers in the element wheel to reach the detectors.
      3. Important Years : 1990: NASA’s Hubble Space Telescope launched. 1960: Nancy Grace Roman became NASA’s Chief Astronomer.
      4. Field of View : Roman’s field of view is about 100 times larger than that of the infrared camera onboard the Hubble Space Telescope. WFI’s large field of view is achieved using an array of 18 detectors which are represented by the squares in this graphic
      5. Detectors : This dial has one tick mark for each of WFI’s 18 detectors.
      6. Modes : WFI has imaging and spectroscopy modes.
      7. Wavelengths : WFI will observe in both visible and infrared light and can select which wavelengths    reach the detectors using filters in the element wheel.
      8. “Dark Energy” Drink + “Dark Matter” Candy : Roman will enable new research into the mysteries of dark energy and dark matter.  
      9. Science Goals : The names of these games capture WFI’s role as a survey instrument and the types of surveys it will perform.
      10. Joystick : This joystick features design elements found on the WFI’s element wheel assembly, a large, rotating metal disk with optics that filter or disperse light.
      Downloads
      Download the Digital Version of Poster
      Jan 14, 2025
      PDF ()


      Download Press Version (highest quality for print)
      Jan 14, 2025
      PDF ()


      Keep Exploring Discover More about Roman
      Latest Roman Stories



      Roman Observatory



      About Roman



      Wide Field Instrument


      View the full article
    • Space Force
      Kendall offers vision for the Air Force, Space Force of 2050
      By Space Force
      SECAF Kendall offers his vision for the security challenges the Air Force and Space Force could face in 2050 and what is needed to properly respond.
      View the full article
    • NASA
      NASA Deputy Administrator to Receive 2025 National Space Award
      By NASA
      NASA Deputy Administrator Pam Melroy gives keynote remarks during the 37th Space Symposium, Tuesday, April 5, 2022, in Colorado Springs, Colorado. Photo Credit: (NASA/Bill Ingalls) The Rotary National Award for Space Achievement Foundation has selected NASA Deputy Administrator Pam Melroy, a retired United States Air Force colonel and former NASA astronaut, to receive the 2025 National Space Trophy on April 25 in Houston.
      “This honor is not just a reflection of my journey but a testament to the incredible teams and visionaries I’ve been privileged to work alongside,” said Melroy. “Exploring space is the ultimate act of human aspiration, proving time and again that when we dream together, we achieve the impossible. Being selected for the National Space Trophy is a humbling reminder of how far we’ve come — and how much further we can go.”
      Vanessa Wyche, director of NASA’s Johnson Space Center in Houston, who nominated Melroy alongside former NASA Johnson director Michael Coats, said, “Pam has brilliantly paved the way for future generations pursuing careers in STEM fields through her exemplary leadership, dedication to mission excellence, and integral contributions to the advancement of space exploration. I am thrilled and immensely proud that Pam is receiving this well-deserved recognition.”
      Sworn in as NASA’s deputy administrator on June 21, 2021, Melroy assists NASA Administrator Bill Nelson on key agency decisions, defines the agency’s strategic vision, and represents NASA to key government and international partners.
      Melroy first joined NASA as an astronaut in 1994 and holds the distinction of being only one of two women to command a space shuttle. She spent more than 38 days in space across three space shuttle missions, all contributing to the assembly of the International Space Station. She served as pilot for STS-92 in 2000 and STS-112 in 2002, and she commanded STS-120 in 2007.
      After serving more than two decades in the U.S. Air Force and as a NASA astronaut, Melroy transitioned to leadership roles at Lockheed Martin, the Federal Aviation Administration, the Defense Advanced Research Projects Agency, and Nova Systems Pty, Australia. Additionally, she was as an advisor to the Australian Space Agency and a member of the National Space Council’s Users Advisory Group.
      The Rotary National Award for Space Achievement Foundation invites members of the public and the aerospace community to attend the Space Awards gala where Melroy will be recognized with the National Space Trophy. For more information on Melroy, visit:
      https://www.nasa.gov/people/nasa-deputy-administrator-pam-melroy/
      -end-
      Amber Jacobson
      Headquarters, Washington
      202-358-1600
      amber.c.jacobson@nasa.gov
      Share
      Details
      Last Updated Jan 14, 2025 LocationNASA Headquarters Related Terms
      Pamela A. Melroy Astronauts View the full article
    • NASA
      LEAP – Legged Exploration Across the Plume
      By NASA
      1 min read
      Preparations for Next Moonwalk Simulations Underway (and Underwater)
      Artist concept highlighting the novel approach proposed by the 2025 NIAC awarded selection of LEAP – Legged Exploration Across the Plume.NASA/Justin Yim Justin Yim
      University of Illinois
      We propose Legged Exploration Across the Plume (LEAP), based on the Salto jumping robot as a novel multi-jet robotic sampling concept for Enceladus to be deployed from Enceladus Orbilander. If successful, LEAP will enable collection of pristine, ocean-derived material directly from Enceladus’s jets and measurement of particle properties across multiple jets by traveling from one to another. In low gravity, existing jump performance would be sufficient to leap 90 m vertically or 170 m horizontally in Enceladus’s gravity allowing traversal of jets and collection of direct measurements otherwise not accessible to Orbilander. These measurements could be crucial for investigating the physics of how the plume is connected to the ocean.
      2025 Selections
      Facebook logo @NASATechnology @NASA_Technology


      Share
      Details
      Last Updated Jan 10, 2025 EditorLoura Hall Related Terms
      NIAC Studies NASA Innovative Advanced Concepts (NIAC) Program Keep Exploring Discover More NIAC Topics
      Space Technology Mission Directorate
      NASA Innovative Advanced Concepts
      NIAC Funded Studies
      About NIAC
      View the full article

  • Check out these Videos

×
×
  • Create New...