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AtmoSense: Atmosphere as a Sensor

Modeling output of 3D multi-scale acoustic wave propagation resulting from a kilotons-equivalent-yield disturbance originating near the ground.
This graphic shows the modeling output of 3D multi-scale acoustic wave propagation resulting from a kilotons-equivalent-yield disturbance originating near the ground, such as from an earthquake or volcanic eruption. Also depicted is an instrumentation detection method developed and tested as part of the AtmoSense program that uses ground-based receivers to measure the impact of explosion-generated acoustic waves on Global Navigation Satellite System (GNSS) signals. Source: Embry-Riddle Aeronautical University

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  • Caption: This graphic shows the modeling output of 3D multi-scale acoustic wave propagation resulting from a kilotons-equivalent-yield disturbance originating near the ground, such as from an earthquake or volcanic eruption. Also depicted is an instrumentation detection method developed and tested as part of the AtmoSense program that uses ground-based receivers to measure the impact of explosion-generated acoustic waves on Global Navigation Satellite System (GNSS) signals.
  • Credit: Embry-Riddle Aeronautical University
  • Format: JPG
  • Size: 2800 x 1620 px
  • Date: March 31, 2025
  • Program: AtmoSense: Atmosphere as a Sensor

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