National Aeronautics and Space Administration Contracts in Michigan
Federal contracts by National Aeronautics and Space Administration performed in Michigan (MI)
Agency State Spending Overview
The National Aeronautics and Space Administration has obligated $133,843,789 in federal contract spending performed in Michigan across 6 contract awards. Of these awards, 100% were competitively bid, meaning multiple companies submitted proposals for the work. Small businesses account for 0% of the agency's contract awards in the state. The top contractor receiving National Aeronautics and Space Administration dollars in Michigan is Regents of the University of Michigan with $127.8M. This spending represents a significant portion of the federal government's economic activity in Michigan and supports jobs across multiple industry sectors.
Overview
Total Spending: $133,843,789
Contract Count: 6
Average Contract Size: $22.3M
Competition Rate: 100%
Small Business Rate: 0%
Top Contractors
Companies receiving the most National Aeronautics and Space Administration contract dollars in Michigan, ranked by total obligated value.
- Regents of the University of Michigan — $127.8M (3 contracts)
- Xiomas Technologies LLC — $5.0M (1 contracts)
- Pratt & Miller Engineering & Fabrication, LLC — $999.3K (1 contracts)
- Nikon Metrology, LLC — $58.0K (1 contracts)
Spending by Sector
How National Aeronautics and Space Administration's contract spending in Michigan is distributed across industry sectors.
- R&D: $125.1M (4 contracts)
- Other: $8.7M (1 contracts)
- IT: $58.0K (1 contracts)
Contracts
- "IGF::OT::IGF" OTHER FUNCTIONS - CYCLONE GLOBAL NAVIGATION SATELLITE SYSTEM (CYGNSS) MISSION - THE CYGNSS MISSION PROPOSAL WAS SELECTED UNDER THE NASA ANNOUNCEMENT OF OPPORTUNITY NNH11ZDA012O FOR THE EARTH VENTURE -2 (EV-2) ELEMENT OF THE EARTH SYSTEM SCIENCE PATHFINDER (ESSP) PROGRAM OFFICES' EARTH VENTURE LINE. THE CYGNSS MISSION IS A CLASS D SCIENCE INVESTIGATION. THE CYGNSS MISSION GOAL IS TO UNDERSTAND THE COUPLING BETWEEN OCEAN SURFACE PROPERTIES, MOIST ATMOSPHERIC THERMODYNAMICS, RADIATION, AND CONVECTIVE DYNAMICS IN THE INNER CORE OF TROPICAL CYCLONES (TCS). THE GOAL DIRECTLY SUPPORTS THE NASA STRATEGIC OBJECTIVE TO ENABLE IMPROVED PREDICTIVE CAPABILITY FOR WEATHER AND EXTREME WEATHER EVENTS. NEAR-SURFACE WINDS ARE MAJOR CONTRIBUTORS TO AND INDICATORS OF MOMENTUM AND ENERGY FLUXES AT THE AIR/SEA INTERFACE. UNDERSTANDING THE COUPLING BETWEEN THE SURFACE WINDS AND THE MOIST ATMOSPHERE WITHIN THE TC INNER CORE IS KEY TO PROPERLY MODELING AND FORECASTING ITS GENESIS AND INTENSIFICATION. OF PARTICULAR INTEREST IS THE LACK OF SIGNIFICANT IMPROVEMENT IN STORM INTENSITY FORECASTS OVER THE PAST TWO DECADES, RELATIVE TO FORECASTS OF STORM TRACK. ADVANCES IN TRACT FORECAST HAVE RESULTED IN LARGE PART FROM THE IMPROVEMENTS THAT HAVE BEEN MADE IN OBSERVATIONS AND MODELING OF THE MESOSCALE AND SYNOPTIC ENVIRONMENT SURROUNDING A TC. THE HYPOTHESIS IS THAT THE LACK OF AN ACCOMPANYING IMPROVEMENT IN INTENSITY FORECAST IS LARGELY DUE TO A LACK OF OBSERVATIONS AND PROPER MODELING OF THE TC INNER CORE. THE INADEQUACY IN OBSERVATIONS RESULTS FROM TWO CAUSES. 1. MUCH OF THE INNER CORE OCEAN SURFACE IS OBSCURED FROM CONVENTIONAL REMOTE SENSING INSTRUMENTS BY INTENSE PRECIPITATION IN THE EYE WALL AND INNER RAIN BANDS. 2. THE RAPIDLY EVOLVING GENESIS AND INTENSIFICATION STAGES OF THE TC LIFE CYCLE ARE POORLY SAMPLED BY CONVENTIONAL POLAR-ORBITING, WIDE-SWAT IMAGERS. CYGNSS ADDRESSES THESE TWO LIMITATIONS BY COMBINING THE ALL-WEATHER PERFORMANCE OF GPS-BASED BISTATIC SCATTEROMETRY WITH THE SPATIAL AND TEMPORAL SAMPLING PROPERTIES OF A CONSTELLATION OF OBSERVATORIES. THE CONSTELLATION CONSISTS OF INDIVIDUAL GPS SURFACE REFLECTION RECEIVERS FLOWN ON 8 NANOSATELLITES. THIS PROVIDES THE ABILITY TO MEASURE THE OCEAN SURFACE WINDS WITH UNPRECEDENTED TEMPORAL RESOLUTION AND SPATIAL COVERAGE UNDER ALL PRECIPITATING CONDITIONS, UP TO AND INCLUDING THOSE EXPERIENCED IN THE HURRICANE EYEWALL. CYGNSS ACHIEVES ITS GOAL USING INNOVATIVE APPLICATIONS OF EXISTING TECHNOLOGIES, LABORATORY TESTED AND VERIFIED IN A RELEVANT ENVIRONMENT, TO AVOID THE RISKS INHERENT WITH NEW TECHNOLOGIES. — $116.1M
- DRAGONFLY MASS SPECTROMETER (DRAMS), ELECTRONICS MODULES (EM) — $8.7M
- TRANSEFERRED FROM 80NSSC22CA227 — $5.0M
- UMICH SHALL DESIGN, BUILD, AND DOCUMENT A PROTOTYPE DESIGN OF THE SWFC CUP SUCH WITH THE UNIQUE NEW INSTRUMENT DESIGN COMBINATION OF A TRADITIONAL FARADAY CUP AND THE RPA. THIS DESIGN SHALL THEN BE DEMONSTRATED VIA FUNCTIONAL PERFORMANCE TESTING. — $3.0M
- NEXT SPACE TECHNOLOGIES FOR EXPLORATION PARTNERSHIP-2 APPENDIX R: LUNAR LOGISTICS & MOBILITY STUDIES. AREAS OF STUDY INCLUDE BUT AREN'T LIMITED TO CONCEPT OF OPS, GROUND SUPPORT EQUIP, LANDER ASSUMPTIONS, PROCUREMENT STRATEGY & LUNAR SURFACE IMPACTS — $999.3K
- SOURCE & DETECTOR MODIFICATION - NIKON — $58.0K
Frequently Asked Questions
How much does National Aeronautics and Space Administration spend on contracts in Michigan?
National Aeronautics and Space Administration has $133.8M in federal contracts performed in Michigan across 6 awards.
What is the competition rate for National Aeronautics and Space Administration contracts in Michigan?
100% of National Aeronautics and Space Administration's contracts in Michigan were competitively awarded.
Which contractors win the most National Aeronautics and Space Administration work in Michigan?
The top contractors include Regents of the University of Michigan, Xiomas Technologies LLC, Pratt & Miller Engineering & Fabrication, LLC.
What industries receive National Aeronautics and Space Administration contract dollars in Michigan?
National Aeronautics and Space Administration's spending spans R&D, Other, IT.