Monostatic radar

Results: 6



#Item
1APPENDIX A PHYSICS OF METEOROLOGICAL RADARS A.1 Detection of Precipitation. Consider a monostatic radar such as the WSR-88D with peak transmitted power, Pt, and antenna gain, G, illuminating a single target cross section

APPENDIX A PHYSICS OF METEOROLOGICAL RADARS A.1 Detection of Precipitation. Consider a monostatic radar such as the WSR-88D with peak transmitted power, Pt, and antenna gain, G, illuminating a single target cross section

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Source URL: www.ofcm.noaa.gov

Language: English - Date: 2006-01-09 15:56:19
2WSTIAC Quarterly, Vol 10, No. 3 - Forward Scatter Radar for Future Systems

WSTIAC Quarterly, Vol 10, No. 3 - Forward Scatter Radar for Future Systems

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Source URL: www.dsiac.org

Language: English - Date: 2011-03-07 17:46:19
3Introduction to Ionospheric Radar Remote Sensing John D Sahr Department of Electrical Engineering University of Washington

Introduction to Ionospheric Radar Remote Sensing John D Sahr Department of Electrical Engineering University of Washington

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Source URL: cedarweb.hao.ucar.edu

Language: English - Date: 2009-02-05 14:07:10
4APPENDIX A PHYSICS OF METEOROLOGICAL RADARS A.1 Detection of Precipitation. Consider a monostatic radar such as the WSR-88D with peak transmitted power, Pt, and antenna gain, G, illuminating a single target cross section

APPENDIX A PHYSICS OF METEOROLOGICAL RADARS A.1 Detection of Precipitation. Consider a monostatic radar such as the WSR-88D with peak transmitted power, Pt, and antenna gain, G, illuminating a single target cross section

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Source URL: www.ofcm.gov

Language: English - Date: 2006-01-09 15:56:19
544th Lunar and Planetary Science Conference[removed]pdf BISTATIC RADAR OBSERVATIONS OF THE MOON USING THE ARECIBO OBSERVATORY & MINI-RF ON LRO. D. B. J. Bussey1, G. W. Patterson1, R. Schulze1, D. E. Wahl2, M. Nolan3

44th Lunar and Planetary Science Conference[removed]pdf BISTATIC RADAR OBSERVATIONS OF THE MOON USING THE ARECIBO OBSERVATORY & MINI-RF ON LRO. D. B. J. Bussey1, G. W. Patterson1, R. Schulze1, D. E. Wahl2, M. Nolan3

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Source URL: www.lpi.usra.edu

Language: English - Date: 2013-01-08 16:55:18
6TWO-WAY RADAR EQUATION (MONOSTATIC) In this section the radar equation is derived from the one-way equation (transmitter to receiver) which is then extended to the two-way radar equation. The following is a summary of the important equations to be derived here:

TWO-WAY RADAR EQUATION (MONOSTATIC) In this section the radar equation is derived from the one-way equation (transmitter to receiver) which is then extended to the two-way radar equation. The following is a summary of the important equations to be derived here:

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Source URL: www.tscm.com

Language: English - Date: 2002-07-07 09:29:43