|
The Mars Lidar Simulation Model (MLSM) References |
Atlas, R and G. D. Emmitt. Simulation studies of the impact of space-based wind profiles on global climate studies. Proc. AMS Sixth Symp. on Global Change Studies,
Baker, W.E., G.D. Emmitt, F. Robertson, R.M. Atlas, J.E. Molinari, D.A. Bowdle, J. Paegle, R.M. Hardesty, R.T. Menzies, T.N. Krishnamurti, R.A. Brown, M.J. Post, J.R. Anderson, A.C. Lorenc and J. McElroy. Lidar-measured winds from space: A key component for weather and climate prediction. Bull. Amer. Meteor. Soc., 76, 869-888, 1995.
Betts, A.K. A new convective adjustment scheme, Part I: Observational and theoretical basis. Quart. J. Roy. Meteor. Soc., 112, 1306-1335, 1986.
Clancy, R. T., M. Wolff and P. R. Christensen: Mars Aerosol Studies with the MGS TES Emission Phase Function Observations: Optical-depths, Particle Sizes, and Ice Cloud Types Versus Latitude and Solar Longitude. J. Geophys. Res., Vol. 108, no.E9, 5098, 2003.
Deirmendjian D.: Electromagnetic Scattering on Spherical Polydispersions. Elsevier, Amsterdam, 1969.
Doviak, R.J. and D.S. Zrnic. Doppler Radar and Weather Observations, Academic Press, New York, 458 pp., 1984.
Emmitt, G.D. and S.A. Wood, 2001: Simulating space-based lidar performance
using global and regional scale atmospheric numerical models.
Optical Remote Sensing Topical Mtg.,
Emmitt, G.D. and S.A. Wood. Lidar Mapping of Cloud Tops and Cloud Top Winds, 1996. PL-TR-96-2129, F19628-93-C-0196, 1996
Emmitt, G.D. and S.A. Wood. Simulating clouds within a space-based Doppler lidar wind sounder simulation model. Paper presented at the Cloud Impacts on DOD Operations and Systems 1995 Conference, Hanscom AFB/Phillips Laboratory, October, 1995.
Emmitt, G.D., S.A. Wood and M. Morris. Space-based Doppler lidar sampling strategies -- algorithm development and simulated observation experiments. Report under NASA Contract NAS8-37779, Marshall Space Flight Center, 1990.
Emmitt, G. D. and S. A. Wood. Influence of Coherent Mesoscale Structures on Satellite-Based Doppler Lidar Wind Measurements II. NASA Contract # NAS8-36902, Final Report, 1988.
Emmitt, G. D. Doppler Lidar Sampling Strategies and Accuracies-- Regional Scale. Presented at the Symposium and Workshop on Global Wind Measurements, Aspen, CO, 1987.
Forget, Feancois: Improved optical Properties of the Martian Atmospheric Dust for Radiative transfer Calculations in the Infrared. Geosphysical Research Letters. Vol. 25-7 1105-1108, 1998.
Frehilch, R. and B. Sharman, Predicting Effects of Wind Variability on Doppler Lidar Performance. Presented at the Lidar Working Group Meeting, Oxnard, Ca, 2003.
Frehilch, R., Effects of Wind Turbulence on Coherent Doppler Lidar Performance. J. Atmos. Oceanic. Technol., 14, p54-74., 1997
Frehlich, Rod "Coherent Doppler Lidar Measurements of Winds," in "Trends in Optics: Research, Developments and Applications," Anna Consortini, editor, Academic Press, 1996
Justus, C. G., A. Duvall and D. I. Johnson: Mars Global Reference Atmospheric Model (MARS-GRAM 3.34): Programmer's Guide, Tech. Rep. NASA TM-108509, NASA, Washington DC, 1996b.
Justus, C, G. G., A. Duvall and D. I. Johnson: Global Summary MGS TES data and MARS-GRAM Validation. Abstract COSPAR 02-A-02047, 34th COSPAR scientific Assembly - The second world space Congress, Houston, TX, 2002.
Lewis, S. R. , M. Collins, P. L. Read, F. Forgot, F. Hourdin, R. Fournier, C. Hourdin and O. Talagrand: A Climate Database for Mars. J. Geophys. Res., 104, pp 24177-24194,1999.
Henyey L. and J. Greenstein: Diffuse radiation in the galaxy. Astrophys. Journal, vol. 93, pp. 70-83, 1941.
Kells, L.M., W.F. Kern and J.R. Bland. Plane and Spherical Trigonometry, McGraw-Hill Book Company, New York, 2nd ed., pp. 309-321, 1940.
Koch, G.J., B.W. Barnes, M.
Petros, J.Y. Beyon, F. Amzajerdian, J. Yu, R.E. Davis, S. Ismail, S. Vay, M.J.
Kavaya, and U.N. Singh: Coherent differential absorption lidar measurements of
CO2. Appl. Opt. 43,
5092-5099, 2004.
Koch, G. J: Coherent
Differential Absorption Lidar for Combined Measurement of Wind and Trace
Atmospheric Gases. Ph.D. Dissertation,
Lord, S. L., M. Masutani, J. C. Woollen, J. C. Derber, G. D. Emmitt, S. A. Wood, S.Greco, J. Terry, R. Atlas, and T. J. Kleespies. Impact Assessment of a Doppler Wind Lidar for NPOESS/OSSE. Presented at the AMS Sixth Symposium on Integrated Observing Systems.13-17 January 2002, Orlando Florida.
Mellor, G.L. and T. Yamada. Development of a turbulence closure model for geophysical fluid problems. Rev. Geophys. Space Phys., 20, 851-875, 1982.
Ockert-Bell, M.E., J.F. Bell III, J.B. Pollack, C. P. McKay, F. Forget: Absorption and Scattering Properties of the Martian Dust in the Solar Wavelengths. J. Geophys. Res., 102, pp 9039-9050., 1997.
Upendra N. S., G. J. Koch, S. Ismail, S. A. Wood and G. D. Emmitt: Combined 2-mm DIAL and Doppler Lidar: Application to the Atmosphere of Earth or Mars. To Be Presented at the International Laser Radar Conference, 2006.
Rhyne, R. H., H. Murrow, and K. Sidwell. Atmospheric Turbulence Power Spectral Measurements to Long Wavelengths for Several Meteorological Conditions, Presented at NASA Conference, Hampton, VA, pp. 271-286, 1976.
Toon, O. B., J. B. Pollack, and C. Sagan: Physical Properties of Particles Composing the Martian Dust Storms of 1971-1972. Icarus, 30, 663-696, 1977.
Wood, S. A. and G. D. Emmitt. , 2004: The DLSM online. Presented at the NOAA Working Group on Space-Based Lidar Winds, Sedona, Arizona, 27 - 29 January, 2004.
Wood, S. A. and G. D. Emmitt. , 2002: The Doppler
Lidar Simulation Model (DLSM) for GTWS.
Presented at the NOAA Working Group on Space-Based Lidar Winds, North
Conway, New Hampshire
15-18, July 2002.
Wood, S., G.D. Emmitt, and S.
Greco, 2001: The challenges of accessing the future impact of space-based
Doppler wind lidars while using today’s global and regional atmospheric
models. AMS 5th Symp. Integrated Observing Systems,
Wood,
S., G. Emmitt and S. Greco, 2000: DLSM: A coherent and direct detection lidar
simulation model for simulating space-based and aircraft-based lidar winds.
Proceedings SPIE’s 14th Annual Internat. Symp. Aerospace
Defense Sensing, Simulation and Controls,
Wood, S. A., G. D. Emmitt. and S. Greco. Optical Remote Sensors as Components of an Airborne Hurricane Observing System. Presented at the American Meteorological Society Conference, Long Beach, Ca, 1997.
Wood, S.A., G.D. Emmitt, D. Bai, L.S. Wood and S. Greco. A coherent lidar simulation model for simulating space-based and aircraft-based lidar winds. Paper presented at the Optical Society of America's Coherent Laser Radar Topical Meeting, Keystone, CO, July, 1995.
Wood, S.A., G.D. Emmitt, M. Morris, L. Wood and D. Bai. Space-based Doppler lidar sampling strategies -- algorithm development and simulated observation experiments. Final Rept. NASA Contract NAS8-38559, Marshall Space Flight Center, 266 pp., 1993.
Wood, S. A. and G. D. Emmitt. A Reference Atmosphere for LAWS Trade Studies: An Update. Presented at the American Meteorological Society Conference, New Orleans, LA, 1991.
Wood, S. A. and G. D. Emmitt. A Reference Atmosphere for LAWS Trade Studies. Presented at The Optical Remote Sensing of the Atmosphere Topical Meeting, Lake Tahoe, NV, 1990.
Zuber, M.T., et al.: The Mars Observer Laser Altimeter Investigation. J. Geophys. Res., 97, 7781-7797, 1992.
Last Updated: 02/07/2007