Simulation testbed for atmospheric LIDAR: application to CO2 measurements
J. Stewart Hager, AER, Inc., Lexington, MA; and H. E. Snell, T. S. Zaccheo, J. Dobler, and M. E. Dobbs
We have developed an algorithm testbed designed for end-to-end simulation of atmospheric lidar measurements. The testbed is designed for maximum flexibility to allow for the rapid prototype and development of trace gas remote sensing systems. It not only provides a means of simulating sensor performance during the sensor design phase, but is flexible and modular to allow the same set of algorithm tools and techniques to incorporate measured data from existing sensors. Further, the output retrieval performance parameters can be fed directly into data assimilation schemes in order to fully test the utility of the data for end-user applications. This paper describes the application of this testbed to a LIDAR system designed to measure atmospheric carbon dioxide (CO2). We provide results of sensor simulation studies and retrieval performance for an aircraft-based LIDAR system.
Poster Session 1, Recent Developments in Atmospheric Applications of Radar and lidar
Tuesday, 22 January 2008, 9:45 AM-11:00 AM, Exhibit Hall B
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