Visionary Tech Concepts Could Pioneer the Future in Space – NASA JPL

Illustrations of the projects that were selected for Phase I of the 2021 NASA Innovative Advanced Concepts (NIAC) program.
Dozens of concepts are being presented at this year’s NASA Innovative Advanced Concepts Symposium, including eight led by technologists from NASA’s Jet Propulsion Laboratory.
NASA missions make it seem like the future is now – rovers exploring Mars with cutting-edge gadgets, a spacecraft venturing home with an asteroid sample, and a complex space telescope peering at the early universe. So, what’s the next big thing? What might space missions in 2050 and beyond set out to discover?
One small NASA program aims to see what could be possible. The NASA Innovative Advanced Concepts (NIAC) program, part of the agency’s Space Technology Mission Directorate, funds early-stage research into sci-fi sounding, futuristic technology concepts. The goal is to find what might work, what might not, and what exciting new ideas researchers may come up with along the way.
During NIAC’s annual Symposium Sept. 21-23, 2021, researchers will present ideas that could one day be game-changers in space. Watch the event to learn more about these four technology concepts and more.
1. Swimming micro-robots for ocean worlds.
Ocean worlds, where liquid oceans lie beneath miles of icy crust, are some of the most likely locations in our solar system to harbor life – an enticing prospect for scientists. Accessing and exploring these aquatic environments present unique challenges. Ethan Schaler, a robotics mechanical engineer at NASA’s Jet Propulsion Laboratory in Southern California, is researching one promising idea for exploration: Using 3D-printed, centimeter-scale robots equipped with sensors and actuators. A mothercraft that drilled through the ice and deployed the micro-bots would also wirelessly control them using ultrasound waves.
Get the Latest JPL News
2. Long-reach crawling and anchoring robots for Martian caves.
While swimming robots could be ideal for some destinations, others will require something with a firmer grip. Marco Pavone, an associate professor at Stanford University, is developing a potential solution. His ReachBot concept could quickly crawl through caves, using extendable booms to grasp over long distances. Its various features would allow small and lightweight robots to move around in tricky environments, such as vertical cliff walls or the rocky and uneven floors of caves on Mars.
3. Lightweight deployable structures that expand in space.
Getting extra-large spacecraft off Earth takes lots of planning, as the size of what can go to space depends on how much a rocket can fit. Multiple launches and in-space assembly have proven successful in the past, but there could be another way. Assistant professor at Carnegie Mellon University Zachary Manchester is considering ways to integrate recent advances in mechanical metamaterials into a lightweight deployable structure design. Such a structure could be launched inside a single rocket fairing and then deploy autonomously to a final size of the length of 10 football fields.
4. Seeding asteroids with fungi to create space soil.
Space habitat concepts come in all shapes and sizes. But all designs have a common challenge requiring innovative thinking: How will space travelers sustain themselves during long journeys? Jane Shevtsov, working with Trans Astronautica Corporation, offers creating soil from carbon-rich asteroid material. The fungi would physically break down the material and chemically degrade toxic substances. Similar processes take place on Earth, like oyster mushrooms cleaning up petroleum-contaminated soil. The NIAC research aims to find a way for future space habitats to have ample green space and robust agricultural systems.
The 2021 NIAC symposium will kick off Tuesday, Sept. 21. A keynote address by the Mars 2020 Planetary Protection Lead Moogega Cooper will air on NASA Television, the agency’s website, and the NASA app.
NASA selects NIAC proposals through a peer-review process that evaluates innovation and technical viability. All projects are still in the early stages of development, with most requiring a decade or more of technology maturation. They are not considered official NASA missions.
To learn more about NIAC, visit:
Rob Margetta
NASA Headquarters, Washington
[email protected]
Ian J. O’Neill
Jet Propulsion Laboratory, Pasadena, Calif.
[email protected]
Technology .
Working Overtime: NASA’s Deep Space Atomic Clock Completes Mission
Technology .
Solar Electric Propulsion Makes NASA’s Psyche Spacecraft Go
Asteroids and Comets .
Planetary Radar Observes 1,000th Near-Earth Asteroid Since 1968
Technology .
NASA’s Deep Space Network Looks to the Future
Earth .
Improving Food Security Through Capacity Building
Solar System .
A Few Steps Closer to Europa: Spacecraft Hardware Makes Headway
Climate Change .
NASA’s Oceans Melting Greenland Mission Leaves for Its Last Field Trip
Stars and Galaxies .
Stars Are Exploding in Dusty Galaxies. We Just Can’t Always See Them
Technology .
Metallic Glass Gears Up for ‘Cobots,’ Coatings, and More
Earth .
ECOSTRESS Data Incorporated Into New Wildfire Response Tool
Visualization .
Deep Space Network Now
Mission .
Topic .
Image .
Deep Space Atomic Clock Poster – orange version
Image .
Deep Space Atomic Clock Poster – blue version
Image .
Deep Space Atomic Clock Poster – red version
Video .
Working Remotely: How Astronauts Upgraded a Complex Experiment in Space
Infographic .
Caltech (Verma,Akhil phD. Planetary Science)
Video .
NASA Climbing Robot Scales Cliffs and Looks for Life
Infographic .
Voyager 2: By the Numbers
JPL is a federally funded research and development center managed for NASA by Caltech.