Doppler Lidar for Precision Landing on Planetary Bodies with and without Atmosphere

Farzin Amzajerdian; Glenn D. Hines; Aram Gragossian; Nathan A. Dostart; F. Guy Wilson; Jacob M. Heppler; Daniel K. Litton

Global Positioning System (GPS) is commonly used in terrestrial navigation for vehicle position and velocity knowledge. In the absence of a GPS signal, past landing missions to planetary bodies primarily relied on radar to provide the necessary data to execute descent and landing maneuvers. We have developed a coherent Doppler lidar, called Navigation Doppler Lidar (NDL), that offers several critical advantages com-pared to radar, including significantly higher precision with reduced size, mass, and power.

Document ID

20220012826

Acquisition Source

Langley Research Center

Document Type

Presentation

Authors

Date Acquired

August 18, 2022

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Meeting Information

Meeting: 19th International Planetary Probe Workshop

Location: Santa Clara, CA

Country: US

Start Date: August 29, 2022

End Date: September 2, 2022

Sponsors: University of Colorado Boulder, Analytical Mechanics Associates (United States)

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Public

Portions of document may include copyright protected material.

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