• Source: NASA Institute for Advanced Concepts

      • The NASA Innovative Advanced Concepts (NIAC) is a NASA program for development of far reaching, long term advanced concepts by "creating breakthroughs, radically better or entirely new aerospace concepts". It funds work on revolutionary aeronautics and space concepts that can dramatically impact how NASA develops and conducts its missions. The program operated under the name NASA Institute for Advanced Concepts from 1998 until 2007 (managed by the Universities Space Research Association on behalf of NASA), and was reestablished in 2011 under the name NASA Innovative Advanced Concepts and continues to the present.


      History


      The NASA Institute for Advanced Concepts (NIAC) was a NASA-funded program that was operated by the Universities Space Research Association (USRA) for NASA from 1998 until its closure on 31 August 2007. NIAC was to serve as "an independent open forum, a high-level point of entry to NASA for an external community of innovators, and an external capability for analysis and definition of advanced aeronautics and space concepts to complement the advanced concept activities conducted within NASA."
      NIAC sought proposals for revolutionary aeronautics and space concepts to dramatically impact how NASA developed and conducted its missions. NIAC provided a highly visible, recognizable, and high-level entry point for outside thinkers and researchers. It encouraged proposers to think decades into the future in pursuit of concepts that would "leapfrog" the evolution of contemporary aerospace systems. These concepts were expected to be based on sound scientific principles and attainable within a 10 to 40-year time frame.
      NIAC received a total of 1,309 proposals and awarded 126 Phase I grants and 42 Phase II contracts for a total value of $27.3 million from February 1998 to 2007.
      NASA announced on March 1, 2011 that the NIAC concept would be re-established at NASA with similar goals, maintaining the acronym NIAC.


      = NIAC 1998–2007

      =
      Studies funded by the original NIAC 1998–2007 include

      Bio-Nano-Machines for Space Applications – Constantinos Mavroidis
      System Feasibility Demonstrations of Caves and Subsurface Constructs for Mars Habitation and Scientific Exploration (Caves of Mars Project) – Penelope J. Boston
      Lunar space elevator – Jerome Pearson – final report.pdf
      Magnetic sail – Robert Zubrin
      Mars Entomopter – Robert Michelson / Anthony Colozza – Phase II final report.pdf
      Mini-magnetospheric plasma propulsion – Robert M. Winglee
      Momentum exchange tether – Thomas J. Bogar – final report.pdf
      New Worlds Mission – Webster Cash
      Space elevator – Bradley C. Edwards


      = Closing of the Original NIAC

      =
      On July 2, 2007, NIAC announced that "NASA, faced with the constraints of achieving the Vision for Space Exploration, has made the difficult decision to terminate NIAC, which has been funded by NASA since inception. Effective August 31, 2007, the original NIAC organization ceased operations.


      Revised NIAC


      Following the termination of the original NIAC program, Congress requested a review of the NIAC program by the United States National Research Council (NRC) of the National Academy of Sciences. The review was done in 2009, and concluded that in order to achieve its mission, NASA needs "a mechanism to investigate visionary, far-reaching advanced concepts," and recommended that NIAC, or a NIAC-like program, should be reestablished. Consistent with this recommendation, it was announced on March 1, 2011 that the NIAC was to be revived with similar goals leading to the establishment in 2011 of a project within the NASA Office of Chief Technologist, the NASA Innovative Advanced Concepts, maintaining the acronym NIAC. It is now part of the NASA Space Technology Mission Directorate (STMD).
      According to Michael Gazarik, director of NASA's Space Technology Program, "Through the NASA Innovative Advanced Concepts program, NASA is taking the long-term view of technological investment and the advancement that is essential for accomplishing our missions. We are inventing the ways in which next-generation aircraft and spacecraft will change the world and inspiring Americans to take bold steps."


      = 2011 NIAC Project Selections

      =
      The revived NIAC, with the slightly-changed name "NASA Innovative Advanced Concepts," funded thirty phase-I studies in 2011 to investigate advanced concepts.

      Duda, Kevin: Variable Vector Countermeasure Suit (V2Suit) for Space Habitation and Exploration
      Ferguson, Scott: Enabling All-Access Mobility for Planetary Exploration Vehicles via Transformative Reconfiguration
      Gilland, James: The Potential for Ambient Plasma Wave Propulsion
      Gregory, Daniel: Space Debris Elimination (SpaDE)
      Hogue, Michael: Regolith Derived Heat Shield for a Planetary Body Entry and Descent System with In-Situ Fabrication
      Hohman, Kurt: Atmospheric Breathing Electric Thruster for Planetary Exploration
      Howe, Steven: Economical Radioisotope Power
      Khoshnevis, Behrokh: Contour Crafting Simulation Plan for Lunar Settlement Infrastructure Build-Up
      Kwiat, Paul: Entanglement-assisted Communication System for NASA's Deep-Space Missions: Feasibility Test and Conceptual Design
      Mankins, John: SPS-ALPHA: The First Practical Solar Power Satellite via Arbitrarily Large PHased Array
      Miller, David: High-temperature Superconductors as Electromagnetic Deployment and Support Structures in Spacecraft
      Paul, Michael: Non-Radioisotope Power Systems For Sunless Solar System Exploration Missions
      Pavone, Marco: Spacecraft/Rover Hybrids for the Exploration of Small Solar System Bodies
      Ritter, Joe: Ultra-Light "Photonic Muscle" Space Structures
      Scott, Gregory: Low Power Microrobotics Utilizing Biologically Inspired Energy Generation
      Short, Kendra: Printable Spacecraft
      Sibille, Laurent: In-Space Propulsion Engine Architecture based on Sublimation of Planetary Resources: from exploration robots to NEO mitigation
      Silvera, Isaac: Metallic Hydrogen: A Game Changing Rocket Propellant
      Slough, John: Nuclear Propulsion through Direct Conversion of Fusion Energy
      Staehle, Robert: Interplanetary CubeSats: Opening the Solar System to a Broad Community at Lower Cost
      Strekalov, Dmitry: Ghost Imaging of Space Objects
      Stysley, Paul: Laser-Based Optical Trap for Remote Sampling of Interplanetary and Atmospheric Particulate Matter
      Swartzlander, Grover: Steering of Solar Sails Using Optical Lift Force
      Tarditi, Alfonso: Aneutronic Fusion Spacecraft Architecture
      Thibeault, Sheila: Radiation Shielding Materials Containing Hydrogen, Boron, and Nitrogen: Systematic Computational and Experimental Study
      Tripathi, Ram: Meeting the Grand Challenge of Protecting Astronaut's Health: Electrostatic Active Space Radiation Shielding for Deep Space Missions
      Werka, Robert: Proposal for a Concept Assessment of a Fission Fragment Rocket Engine (FFRE) Propelled Spacecraft
      Westover, Shayne: Radiation Protection and Architecture Utilizing High Temperature Superconducting Magnets
      Whittaker, William: Technologies Enabling Exploration of Skylights, Lava Tubes and Caves
      Wie, Bong: Optimal Dispersion of Near-Earth Objects


      = 2012 NIAC Project Selections

      =
      In August 2012, NIAC announced selection of 18 new phase-I proposals, along with Phase-II grants for continuation of 10 projects selected in earlier solicitations. These include many projects ranging from Landsailing rovers on Venus to schemes to explore under the ice of Europa. Phase I projects selected were:

      Agogino, Adrian: Super Ball Bot - Structures for Planetary Landing and Exploration
      Arrieta, Juan: The Regolith Biters: A Divide-And-Conquer Architecture for Sample-Return Missions
      Cohen, Marc: Robotic Asteroid Prospector (RAP) Staged from L-1: Start of the Deep Space Economy
      Ditto, Thomas: HOMES - Holographic Optical Method for Exoplanet Spectroscopy
      Flynn, Michael: Water Walls: Highly Reliable and Massively Redundant Life Support Architecture
      Gellett, Wayne: Solid State Air Purification System
      Hoyt, Robert: NanoTHOR: Low-Cost Launch of Nanosatellites to Deep Space
      Hoyt, Robert: SpiderFab: Process for On-Orbit Construction of Kilometer-Scale Apertures
      Kirtley, David: A Plasma Aerocapture and Entry System for Manned Missions and Planetary Deep Space Orbiters
      Landis, Geoffrey: Venus Landsailing Rover
      Lantoine, Gregory: MAGNETOUR: Surfing Planetary Systems on Electromagnetic and Multi-Body Gravity Fields
      McCue, Leigh: Exploration of Under-Ice Regions with Ocean Profiling Agents (EUROPA)
      Nosanov, Jeffrey: Solar System Escape Architecture for Revolutionary Science (SSEARS)
      Predina, Joseph: NIST in Space: Better Remote Sensors for Better Science
      Quadrelli, Marco: Orbiting Rainbows: Optical Manipulation of Aerosols and the Beginnings of Future Space Construction
      Saif, Babak: Atom Interferometry for detection of Gravity Waves-a
      Winglee, Robert: Sample Return Systems for Extreme Environments
      Zha, GeCheng: Silent and Efficient Supersonic Bi-Directional Flying Wing


      = 2013 NIAC Project Selections

      =
      In 2013 NIAC conducted a third solicitation for proposals, with projects to start in the summer of 2013. NASA selected 12 phase-I projects with a wide range of imaginative concepts, including 3-D printing of biomaterials, such as arrays of cells; using galactic rays to map the insides of asteroids; and an "eternal flight" platform that could hover in Earth's atmosphere, potentially providing better imaging, Wi-Fi, power generation, and other applications. They selected 6 phase II projects, including photonic laser thrusters, extreme sample return, and innovative spherical robots designed for planetary exploration.
      Phase I selections were:

      Adams, Rob: Pulsed Fission-Fusion (PuFF) Propulsion System
      Bradford, John: Torpor Inducing Transfer Habitat For Human Stasis To Mars
      Hemmati, Hamid: Two-Dimensional Planetary Surface Landers
      Jerred, Nathan: Dual-mode Propulsion System Enabling CubeSat Exploration of the Solar System
      Longman, Anthony: Growth Adapted Tensegrity Structures - A New Calculus for the Space Economy
      Moore, Mark: Eternal Flight as the Solution for 'X'
      Prettyman, Thomas: Deep Mapping of Small Solar System Bodies with Galactic Cosmic Ray Secondary Particle Showers
      Rothschild, Lynn: Biomaterials out of thin air: in situ, on-demand printing of advanced biocomposites
      Rovey, Joshua: Plasmonic Force Propulsion Revolutionizes Nano/PicoSatellite Capability
      Stoica, Adrian: Transformers For Extreme Environments


      = 2014 NIAC Project Selections

      =
      In 2013, NIAC conducted a fourth solicitation, and selected 12 projects for Phase-1 studies and 5 projects to continue on to phase II projects. Projects selected include a study of hibernation for astronauts and a submarine operating on Saturn's moon Titan
      2014 Phase I selections were:

      Atchison, Justin: Swarm Flyby Gravimetry
      Boland, Eugene: Mars Ecopoiesis Test Bed
      Cash, Webster: The Aragoscope: Ultra-High Resolution Optics at Low Cost
      Chen, Bin: 3D Photocatalytic Air Processor for Dramatic Reduction of Life Support Mass & Complexity
      Hoyt, Robert: WRANGLER: Capture and De-Spin of Asteroids and Space Debris
      Matthies, Larry: Titan Aerial Daughtercraft
      Miller, Timothy: Using the Hottest Particles in the Universe to Probe Icy Solar System Worlds
      Nosanov, Jeffrey: PERISCOPE: PERIapsis Subsurface Cave OPtical Explorer
      Oleson, Steven: Titan Submarine: Exploring the Depths of Kraken
      Ono, Masahiro: Comet Hitchhiker: Harvesting Kinetic Energy from Small Bodies to Enable Fast and Low-Cost Deep Space Exploration
      Streetman, Brett: Exploration Architecture with Quantum Inertial Gravimetry and In Situ ChipSat Sensors
      Wiegmann, Bruce: Heliopause Electrostatic Rapid Transit System (HERTS)


      = 2015 NIAC Project Selections

      =
      The 2015 Phase-1 projects included a hopping vehicle to visit Triton and others, and seven phase two projects. Phase I projects selected were:

      Engblom, William: Virtual Flight Demonstration of Stratospheric Dual-Aircraft Platform
      Graf, John: Thirsty Walls - A new paradigm for air revitalization in life support
      Hecht, Michael: A Tall Ship and a Star to Steer Her By
      Lewis, John: In-Space Manufacture of Storable Propellants
      Lubin, Philip: Directed Energy Propulsion for Interstellar Exploration (DEEP-IN)
      Oleson, Steven: Triton Hopper: Exploring Neptune's Captured Kuiper Belt Object
      Peck, Mason: Soft-Robotic Rover with Electrodynamic Power Scavenging
      Plescia, Jeffrey: Seismic Exploration of Small Bodies
      Paxton, Larry: CRICKET: Cryogenic Reservoir Inventory by Cost-Effective Kinetically Enhanced Technology
      Sercel, Joel: APIS (Asteroid Provided In-Situ Supplies): 100MT Of Water from a Single Falcon 9
      Stoica, Adrian WindBots: persistent in-situ science explorers for gas giants
      Tabirian, Nelson: Thin-Film Broadband Large Area Imaging System
      Ulmer, Melville: Aperture: A Precise Extremely large Reflective Telescope Using Re-configurable Elements
      Wang, Joseph: CubeSat with Nanostructured Sensing Instrumentation for Planetary Exploration
      Youngquist, Robert: Cryogenic Selective Surfaces
      In addition, seven projects were selected for continuation into Phase II:

      Atchison, Justin: Swarm Flyby Gravimetry
      Chen, Bin: 3D Photocatalytic Air Processor for Dramatic Reduction of Life Support Mass and Complexity
      Nosanov, Jeffrey: PERISCOPE: PERIapsis Subsurface Cave Optical Explorer
      Oleson, Steven: Titan Submarine: Exploring the Depths of Kraken Mare
      Paul, Michael: SCEPS in Space - Non-Radioisotope Power Systems for Sunless Solar System Exploration Missions
      Stoica, Adrian: Trans-Formers for Lunar Extreme Environments: Ensuring Long-Term Operations in Regions of Darkness and Low Temperatures
      Wiegmann, Bruce: Heliopause Electrostatic Rapid Transit System (HERTS)


      = 2016 NIAC Project Selections

      =
      Phase I projects selected were:

      Bayandor, Javid: Light Weight Multifunctional Planetary Probe for Extreme Environment Exploration and Locomotion
      Bugga, Ratnakumar: Venus Interior Probe Using In-situ Power and Propulsion (VIP-INSPR)
      Dunn, Jason: Reconstituting Asteroids into Mechanical Automata
      Hughes, Gary: Molecular Composition Analysis of Distant Targets
      Janson, Siegfried: Brane Craft
      Mann, Chris: Stellar Echo Imaging of Exoplanets
      Mueller, Robert: Mars Molniya Orbit Atmospheric Resource Mining
      Ono, Masahiro: Journey to the Center of Icy Moons
      Quadrelli, Marco: E-Glider: Active Electrostatic Flight for Airless Body Exploration
      Rothschild, Lynn: Urban biomining meets printable electronics: end-to-end destination biological recycling and reprinting
      Sauder, Jonathan: Automaton Rover for Extreme Environments (AREE)
      Thomas, Stephanie: Fusion-Enabled Pluto Orbiter and Lander
      VanWoerkom, Michael: NIMPH: Nano Icy Moons Propellant Harvester
      In addition, eight projects were selected for continuation into Phase II:

      Bradford, John: Advancing Torpor Inducing Transfer Habitats for Human Stasis to Mars
      Engblom, William: Flight Demonstration of Novel Atmospheric Satellite Concept
      Kirtley, David: Magnetoshell Aerocapture for Manned Missions and Planetary Deep Space Orbiters
      Lubin, Philip: Directed Energy for Interstellar Study
      Rovey, Joshua: Experimental Demonstration and System Analysis for Plasmonic Force Propulsion
      Skelton, Robert: Tensegrity Approaches to In-Space Construction of a 1g Growable Habitat
      Ulmer, Melville: Further Development of Aperture: A Precise Extremely Large Reflective Telescope Using Re-configurable Elements
      Youngquist, Robert: Cryogenic Selective Surfaces


      = 2017 NIAC Project Selections

      =
      The fifteen projects selected for Phase I were:

      Adam Arkin: A Synthetic Biology Architecture to Detoxify and Enrich Mars Soil for Agriculture
      John Brophy: A Breakthrough Propulsion Architecture for Interstellar Precursor Missions
      John-Paul Clarke : Evacuated Airship for Mars Missions
      Heidi Fearn: Mach Effects for In Space Propulsion: Interstellar Mission
      Benjamin Goldman : Pluto Hop, Skip, and Jump Global
      Jason Gruber: Turbolift
      Kevin Kempton : Phobos L1 Operational Tether Experiment (PHLOTE)
      Michael LaPointe: Gradient Field Imploding Liner Fusion Propulsion System
      John Lewis : Massively Expanded NEA Accessibility via Microwave-Sintered Aerobrakes
      Jay McMahon: Dismantling Rubble Pile Asteroids with AoES (Area-of-Effect Soft-bots)
      Raymond Sedwick: Continuous Electrode Inertial Electrostatic Confinement Fusion
      Joel Sercel: Sutter: Breakthrough Telescope Innovation for Asteroid Survey Missions to Start a Gold Rush in Space
      Slava Turyshev: Direct Multipixel Imaging and Spectroscopy of an exoplanet with a Solar Gravity Lens Mission
      Robert Youngquist: Solar Surfing
      Nan Yu: A direct probe of dark energy interactions with a solar system laboratory
      In addition, seven projects were selected for continuation into Phase II:

      Ratnakumar Bugga: Venus Interior Probe Using In-situ Power and Propulsion (VIP-INSPR)
      Gary Hughes: Remote Laser Evaporative Molecular Absorption Spectroscopy Sensor System
      Siegfried Janson: Brane Craft Phase II
      Chris Mann: Stellar Echo Imaging of Exoplanets
      Jonathan Sauder: Automaton Rover for Extreme Environments (AREE)
      Joel Sercel: Optical Mining of Asteroids, Moons, and Planets to Enable Sustainable Human Exploration and Space Industrialization
      Stephanie Thomas: Fusion-Enabled Pluto Orbiter and Lander


      = 2018 NIAC Project Selections

      =
      The sixteen projects selected for Phase I were:

      Aliakbar Aghamohammadi: Shapeshifters from Science Fiction to Science Fact: Globetrotting from Titan's Rugged Cliffs to its Deep Seafloors
      David Akin: Biobot: Innovative Offloading of Astronauts for More Effective Exploration
      Jeffrey Balcerski: Lofted Environmental and Atmospheric Venus Sensors (LEAVES)
      Sigrid Close: Meteoroid Impact Detection for Exploration of Asteroids (MIDEA)
      Christine Hartzell: On-Orbit, Collision-Free Mapping of Small Orbital Debris
      Chang-kwon Kang: Marsbee - Swarm of Flapping Wing Flyers for Enhanced Mars Exploration
      John Kendra: Rotary Motion Extended Array Synthesis (R-MXAS)
      Chris Limbach: PROCSIMA: Diffractionless Beamed Propulsion for Breakthrough Interstellar Missions
      Gareth Meirion-Griffith: SPARROW: Steam Propelled Autonomous Retrieval Robot for Ocean Worlds
      Hari Nayar: BALLET: BALloon Locomotion for Extreme Terrain
      Lynn Rothschild: Myco-architecture off planet: growing surface structures at destination
      Dmitry Savransky: Modular Active Self-Assembling Space Telescope Swarms
      Nickolas Solomey: Astrophysics and Technical Study of a Solar Neutrino Spacecraft
      Grover Swartzlander: Advanced Diffractive MetaFilm Sailcraft
      Jordan Wachs: Spectrally-Resolved Synthetic Imaging Interferometer
      Ryan Weed: Radioisotope Positron Propulsion
      In addition, nine projects were selected for continuation into Phase II:

      Robert Adams: Pulsed Fission-Fusion (PuFF) Propulsion Concept
      John Brophy: A Breakthrough Propulsion Architecture for Interstellar Precursor Missions
      Devon Crowe: Kilometer Space Telescope (KST)
      Jay McMahon: Dismantling Rubble Pile Asteroids with AoES (Area-of-Effect Soft-bots)
      Steven Oleson: Triton Hopper: Exploring Neptune's Captured Kuiper Belt Object
      John Slough: Spacecraft Scale Magnetospheric Protection from Galactic Cosmic Radiation
      Slava Turyshev: Direct Multipixel Imaging and Spectroscopy of an Exoplanet with a Solar Gravity Lens Mission
      Michael VanWoerkom: NIMPH: Nano Icy Moons Propellant Harvester
      James Woodward: Mach Effect for In Space Propulsion: Interstellar Mission


      = 2019 NIAC Project Selections

      =
      The twelve projects selected for Phase I were:

      Javid Bayandor: BREEZE- Bioinspired Ray for Extreme Environments and Zonal Exploration
      Erik Brandon: Power Beaming for Long Life Venus Surface Missions
      Ana Diaz Artiles: SmartSuit: A Hybrid, Intelligent, and Highly Mobile EVA Spacesuit for Next Generation Exploration Missions
      Tom Ditto: Dual Use Exoplanet Telescope (DUET)
      Yu Gu: Micro-Probes Propelled and Powered by Planetary Atmospheric Electricity (MP4AE)
      Troy Howe: SPEAR Probe - An Ultra Lightweight Nuclear Electric Propulsion Probe for Deep Space Exploration
      Noam Izenberg: RIPS: Ripcord Innovative Power System
      Geoffrey Landis: Power for Interstellar Fly-by
      Joel Sercel: Lunar-Polar Propellant Mining Outpost (LPMO): Affordable Exploration and Industrialization
      John Slough: Crosscutting High Apogee Refueling Orbital Navigator (CHARON) for Active Debris Removal
      George Sowers: Thermal Mining of Ices on Cold Solar System Bodies
      Robert Staehle: Low-Cost SmallSats to Explore to Our Solar System's Boundaries
      In addition, six projects were selected for continuation into Phase II:

      Tom Ditto: The High Étendue Multiple Object Spectrographic Telescope (THE MOST)
      John Kendra: Rotary-Motion-Extended Array Synthesis (R-MXAS)
      Chris Limbach: Self-Guided Beamed Propulsion for Breakthrough Interstellar Missions
      Nickolas Solomey: Astrophysics and Technical Lab Studies of a Solar Neutrino Spacecraft Detector
      Grover Swartzlander: Diffractive Lightsails
      Doug Willard: Solar Surfing
      Also, two projects were selected for Phase III:

      William Whittaker: Robotic Technologies Enabling the Exploration of Lunar Pits
      Joel Sercel: Mini Bee Prototype to Demonstrate the Apis Mission Architecture and Optical Mining Technology


      = 2020 NIAC Project Selections

      =
      The sixteen projects selected for Phase I were:

      Saptarshi Bandyopadhyay: LCRT - Lunar Crater Radio Telescope on the Far-Side of the Moon
      John Christian: StarNAV: An Architecture for Autonomous Spacecraft Navigation by the Relativistic Perturbation of Starlight
      Artur Davoyan: Extreme Metamaterial Solar Sails for Breakthrough Space Exploration
      Caroline Genzale: Fueling a Human Mission to Mars
      Davide Guzzetti: Flat Fabrication of Progressively Self-Assembling Space Systems
      Benjamin Hockman: Gravity Poppers: Hopping Probes for the Interior Mapping of Small Solar System Bodies
      Steven Howe: Pulsed Plasma Rocket: Shielded, Fast Transits for Humans to Mars
      Troy Howe: High Irradiance Peltier Operated Tungsten Exo-Reflector (HI-POWER)
      Gerald Jackson: Deceleration of Interstellar Spacecraft Utilizing Antimatter
      Matthew Kuhns: Instant Landing Pads for Artemis Lunar Missions
      Richard Linares: Dynamic Orbital Slingshot for Rendezvous with Interstellar Objects
      Philip Metzger: Aqua Factorem: Ultra Low-Energy Lunar Water Extraction
      Robert Moses: Advanced Aerocapture System for Enabling Faster-Larger Planetary Science & Human Exploration Missions
      Eldar Noe Dobrea: Heat Exchange-Driven Aircraft for Low Altitude and Surface Exploration of Venus
      Robert Romanofsky: Magneto-Inductive Communications for Ocean Worlds
      Lynn Rothschild: An Astropharmacy
      In addition, six projects were selected for continuation into Phase II:

      David Akin: Innovative Offloading of Astronauts for More Effective Exploration
      Javid Bayandor: Lightweight Multifunctional Planetary Probe for Extreme Environment Exploration and Locomotion
      Troy Howe: SPEAR Probe - An Ultra Lightweight Nuclear Electric Propulsion Probe for Deep Space Exploration
      Masahiro Ono: Enceladus Vent Explorer
      Joel Sercel: Lunar Polar Propellant Mining Outpost (LPMO): A Breakthrough for Lunar Exploration & Industry
      Nan Yu: Gravity Observation and Dark Energy Detection Explorer in the Solar System
      Also, one project was selected for continuation into Phase III:

      Slava Turyshev: Direct Multipixel Imaging and Spectroscopy of an Exoplanet with a Solar Gravitational Lens Mission


      = 2021 NIAC Project Selections

      =
      The sixteen projects selected for Phase I were:

      Sarbajit Banerjee: Regolith Adaptive Modification System (RAMs) to Support Early Extraterrestrial Planetary Landings (and Operations)
      Sigrid Close: Exploring Uranus through SCATTER: Sustained ChipSat/CubeSat Activity Through Transmitted Electromagnetic Radiation
      Amelia Greig: Ablative Arc Mining for In-Situ Resource Utilization
      Zachary Manchester: Kilometer-Scale Space Structures from a Single Launch
      Patrick McGarey: PEDALS: Passively Expanding Dipole Array for Lunar Sounding
      Quinn Morley: Autonomous Robotic Demonstrator for Deep Drilling (ARD3)
      Christopher Morrison: Extrasolar Object Interceptor and Sample Return Enabled by Compact, Ultra Power Dense Radioisotope Batteries
      E. Joseph Nemanick: Atomic Planar Power for Lightweight Exploration (APPLE)
      Steven Oleson: A Titan Sample Return Using In-Situ Propellants
      Marco Pavone: ReachBot: Small Robot for Large Mobile Manipulation Tasks in Martian Cave Environments
      Ronald Polidan: FarView – An In Situ Manufactured Lunar Far Side Radio Observatory
      Ethan Schaler: FLOAT — Flexible Levitation on a Track
      Ethan Schaler: SWIM — Sensing with Independent Micro-swimmers
      Jane Shevtsov: Making Soil for Space Habitats by Seeding Asteroids with Fungi
      Charles Taylor: Light Bender
      Joshua Vander Hook: Solar System Pony Express
      In addition, six projects were selected for continuation into Phase II:

      Saptarshi Bandyopadhyay: LCRT - Lunar Crater Radio Telescope on the Far-Side of the Moon
      Lynn Rothschild: Mycotecture Off Planet
      Kerry Nock: Pluto Hop, Skip, and Jump
      Artur Davoyan: Extreme Solar Sailing for Breakthrough Space Exploration
      Jeffrey Balcerski: Lofted Environmental Venus Sensors (LEAVES)
      Peter Gural: Sutter Ultra: Breakthrough Space Telescope for Prospecting Asteroids
      Also, one project was selected for continuation into Phase III:

      Nickolas Solomey: Cube-Sat Space Flight Test of a Neutrino Detector


      = 2022 NIAC Project Selections

      =
      The twelve projects selected for Phase I were:

      Darmindra Arumugam: Cryospheric Rydberg Radar
      Steven Barrett: Silent, Solid-State Propulsion for Advanced Air Mobility Vehicles
      Jason Benkoski: Combined Heat Shield and Solar Thermal Propulsion System for an Oberth Manuever
      Elena D’Onghia: CREW HaT: Cosmic Radiation Extended Warding using the Halbach Torus
      Bonnie Dunbar: The Spacesuit Digital Thread: 4.0 Manufacture of Custom High Performance Spacesuits for the Exploration of Mars
      Ivan Ermanoski: Breathing Mars Air: Stationary and Portable O2 Generation
      Philip Lubin: Pi – Terminal Defense for Humanity
      John Mather: Hybrid Observatory for Earth-like Exoplanets (HOEE)
      Marcin Pilinski: In-situ Neutral-Optics Velocity Analyzer for Thermospheric Exploration (INOVATE)
      Jonathan Sauder: Starburst: A Revolutionary Under-Constrained Adaptable Deployable Structure Architecture
      Sara Seager: Venus Atmosphere and Cloud Particle Sample Return for Astrobiology
      Mahmooda Sultana: SCOPE: ScienceCraft for Outer Planet Exploration
      In addition, five projects were selected for continuation into Phase II:

      Javid Bayandor: BREEZE- Bioinspired Ray for Extreme Environments and Zonal Exploration
      Zac Manchester: Kilometer-Scale Space Structures from a Single Launch
      E Nemanick: Atomic Planar Power for Lightweight Exploration (APPLE)
      Marco Pavone: ReachBot: Small Robot for Large Mobile Manipulation Tasks in Martian Cave Environments
      Ethan Schaler: SWIM- Sensing with Independent Micro-swimmers
      Also, one project was selected for continuation into Phase III:

      Amber Dubill: Diffractive Solar Sailing


      = 2023 NIAC Project Selections

      =
      The fourteen projects selected for Phase I were:

      Edward Balaban: Fluidic Telescope (FLUTE): Enabling the Next Generation of Large Space Observatories
      Igor Bargatin: Photophoretic Propulsion Enabling Mesosphere Exploration
      Theresa Benyo: Accessing Icy World Oceans Using Lattice Confinement Fusion Fast Fission
      Zachary Cordero: Bend-Forming of Large Electrostatically Actuated Space Structures
      Peter Curreri: Lunar South Pole Oxygen Pipeline
      Artur Davoyan: Pellet-Beam Propulsion for Breakthrough Space Exploration
      Ryan Gosse: New Class of Bimodal NTP/NEP with a Wave Rotor Topping Cycle Enabling Fast Transit to Mars
      Congrui Jin: Biomineralization-Enabled Self-Growing Building Blocks for Habitat Outfitting on Mars
      Mary Knapp: Great Observatory for Long Wavelengths (GO-LoW)
      Quinn Morley: TitanAir: Leading-Edge Liquid Collection to Enable Cutting-Edge Science
      Christopher Morrison: EmberCore Flashlight: Long Distance Lunar Characterization with Intense Passive X- and Gamma-ray Source
      Heidi Newberg: Diffractive Interfero Coronagraph Exoplanet Resolver (DICER): Detecting and Characterizing All Earth-Like Exoplanets Orbiting Sun-Like Stars Within 10 pc
      Stephen Polly: Radioisotope Thermoradiative Cell Power Generator
      Ryan Weed: Aerogel Core Fission Fragment Rocket Engine
      In addition, six projects were selected for continuation into Phase II:

      Darmindra Arumugam: Quantum Rydberg Radar for Surface, Topography, and Vegetation
      Steven Barrett: Silent, Solid-State Propulsion for Advanced Air Mobility Vehicles
      Philip Lubin: PI – Planetary Defense
      Christopher Morrison: The Nyx Mission to Observe the Universe from Deep Space – Enabled by EmberCore, a High Specific Power RadioisotopeElectric Propulsion System
      Ronald Polidan: FarView Observatory – A Large, In-Situ Manufactured, Lunar Far Side Radio Array
      Lynn Rothschild: A Flexible, Personalized, On-Demand Astropharmacy
      No projects were selected for continuation into Phase III.


      = 2024 NIAC Project Selections

      =
      The thirteen projects selected for Phase I were:

      Matthew McQuinn: Solar System-Scale VLBI to Dramatically Improve Cosmological Distance Measurements
      Kenneth Carpenter: A Lunar Long-Baseline Optical Imaging Interferometer: Artemis-enabled Stellar Imager (AeSI)
      Alvaro Romero-Calvo: Magnetohydrodynamic Drive for Hydrogen and Oxygen Production in Mars Transfer
      James Bickford: Thin Film Isotope Nuclear Engine Rocket (TFINER)
      Ge-Cheng Zha: Mars Aerial and Ground Global Intelligent Explorer (MAGGIE)
      Steven Benner: Add-on to Large-scale Water Mining Operations on Mars to Screen for Introduced and Alien Life
      Lynn Rothschild: Detoxifying Mars: The Biocatalytic Elimination of Omnipresent Perchlorates
      Thomas Eubanks: Swarming Proxima Centauri: Coherent Picospacecraft Swarms Over Interstellar Distances
      Beijia Zhang: LIFA: Lightweight Fiber-based Antenna for Small Sat-Compatible Radiometry
      Ryan Sprenger: A Revolutionary Approach to Interplanetary Space Travel: Studying Torpor in Animals for Space-health in Humans (STASH)
      Geoffrey Landis: Sample Return from the Surface of Venus
      Peter Cabauy: Autonomous Tritium Micropowered Sensors
      Aaswath Pattabhi Raman: Electro-luminescently Cooled Zero-boil-off Propellant Depots Enabling Crewed Exploration of Mars


      See also


      Advanced Concepts Team
      Advanced Propulsion Physics Laboratory


      References




      External links


      NASA Institute for Advanced Concepts site at USRA
      List of NIAC studies funded 1998-2007
      NASA Innovative Advanced concepts site
      List of NIAC studies funded 2012-present

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