Today, the National Geospatial-Intelligence Agency (NGA) announced the final results of MagQuest, a $2.1 million competition to advance how we measure Earth’s magnetic field. The first place winner Iota Technology will be awarded $350,000 and two second place winners — Spire Global and SBQuantum, and University of Colorado Boulder — will receive $225,000 each. Runners-up Royal Meteorological Institute of Belgium and Stellar Solutions will each receive $50,000.

Meet the Phase 3 winners

Phase 3 of the global open innovation challenge invited a select group of teams to iterate and refine their designs and testing plans for geomagnetic data collection methodologies. The teams had six months to prepare a submission that demonstrated completion of major design decisions, described specific hardware and software selections, detailed testing approaches to mitigate risks, and provided evidence in support of overall performance. 

This final phase offered the opportunity to interact with subject matter experts to produce the strongest results. Following team presentations at the virtual Design Review Event, the judges nominated the winners according to the Phase 3 selection criteria.

Congratulations to the five Phase 3 winners:

  • Satellite Instrumentation for Geomagnetic Analysis (SIGMA) (Iota Technology). A 3U CubeSat featuring a novel deployable boom and digital magnetometers. Iota Technology is working alongside teams from Oxford Space Systems and AAC Clyde Space, combining expertise in sensor technology, deployable structures, and mission design.
  • Diamond-Powered Geomagnetic Data Collection from LEO (Spire Global and SBQuantum). A diamond quantum magnetometer system deployed on a CubeSat, combining SBQuantum’s novel magnetometer technology and sensor expertise with Spire Global’s existing infrastructure for satellites, ground stations, and data processing.
  • Compact Spaceborne Magnetic Observatory (COSMO) CubeSat (University of Colorado Boulder). A CubeSat specifically designed and tested for magnetic cleanliness and accurate data from a compact form factor. A compact scalar-vector magnetometer designed specifically for CubeSats enables high-quality collection of magnetic field data.
  • Terrestrial and Seafloor Automated Magnetic Observatories (Royal Meteorological Institute of Belgium). A flexible network of automated magnetic observatories on land and the seafloor. The observatories can be deployed at almost any global location; automation delivers continuous near-real-time data while decreasing staffing and support needs.
  • Global Acquisition of Magnetic Measurements at Altitude (GAMMA) (Stellar Solutions). GAMMA leverages planned satellite missions by adding easily integrated magnetometer payloads, plus an expanded ground-based scientific magnetometer array. New miniature space sensors and payload hosting opportunities dramatically decrease costs while supporting collection of the required magnetic measurements.

“The importance of the World Magnetic Model cannot be overstated: It is critical to keeping everyday navigational systems running,” said NGA Senior GEOINT Authority J.N. Markiel, Ph.D. “MagQuest has advanced scientific and technical innovations that could be key to the future of geomagnetic data collection, specifically approaches that are both sustainable and scalable.”

In recognition of MagQuest’s success, the Office of the Director of National Intelligence awarded NGA the 2019 Intelligence Community Acquisition Award for Team Innovation.