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1

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Outlook for research on subtropical marine stratiform clouds (1984)

Lenschow, D. H. ; Fairall, C. W. ; Kropfli, R. A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: A detailed description of the goals and methodology of the First International Satellite Cloud Cover Project Regional Experiment (FIRE) is presented. The purpose of the experiment is to develop physical models and parameterizations of fractional cloud cover over the Pacific Basin. In order to determine fractional cloud cover parameters, satellite observations by radar and lidar instruments will be combined with in situ measurements of the cloud-capped marine boundary layer. A description of a candidate experiment for the program is presented, and some general problems connected with the statistical characterization of satellite imagery are discussed.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: American Meteorological Society, Bulletin (ISSN 0003-0007); 65; 1290-130

Format: text

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2

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Summary report of Committee B (1977)

Lenschow, D. H.

In: CASI

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Publication Date: 2016-06-07

Description: Topics discussed in this summary include: (1) general aviation and services; (2) aircraft design; and (3) simulation. It was concluded that private pilots need to be more knowledgeable about weather. Improvement is needed in providing general aviation pilots with changes in the weather reporting and forecasting systems. There should also be some simulation of various severe shear profiles in training simulators, although there is still a problem in simulating shear conditions using mathematical models and data.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Tennessee Univ. Space Inst. Proc. of the 1st Ann. Meteorol. and Environ. Inputs to Aviation Systems Workshop; p 314-320

Format: application/pdf

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3

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A comparison of vertical velocity in cirrus obtained from aircraft and lidar divergence measurements during FIRE (1990)

Gultepe, I. ; Lenschow, D. H. ; Heymsfield, A. J.

In: Other Sources

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Publication Date: 2019-07-12

Description: Techniques are presented to obtain vertical velocity (w) in cirrus clouds from in situ aircraft lateral wind measurements and from ground-based remote Doppler lidar measurements. In general, direct measurements of w from aircraft are not feasible because of offsets in the air velocity sensors. An alternative is to calculate w from the integral of the divergence of the horizontal velocity around a closed path. This technique is applied to a cirrus cloud investigated during the FIRE Cirrus Intensive Field Observation Program. The results indicate that the error in w is about + or - 14 cm/sec from the aircraft technique; this can be reduced to about + or - 2-3 cm/sec with technical improvements in both ground-speed and lateral-velocity measurements. The error in w from Doppler lidar measurements, which is about + or - 8 cm/sec can be reduced to about + or - 5 cm/sec by improvements in the Doppler velocity measurements with technology that is currently available.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Atmospheric and Oceanic Technology (ISSN 0739-0572); 7; 58-67

Format: text

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4

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A comparison of vertical velocity in cirrus obtained from aircraft and lidar divergence measurements during FIRE (1990)

Heymsfield, A. J. ; Gultepe, Ismail ; Lenschow, D. H.

In: Other Sources

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Publication Date: 2019-07-12

Description: Techniques are presented to obtain vertical velocity in cirrus clouds from in situ aircraft lateral wind measurements and from ground-based remote Doppler lidar measurements. The approach used is to calculate w from the integral of the divergence of the horizontal velocity around a closed path. Divergence measurements from both aircraft and Doppler lidar are discussed. The principal errors in the calculation of w from aircraft lateral wind measurements are bias in the lateral wind, ground speed errors, and error due to vertical shear of the horizontal wind. For Doppler lidar measurements the principal errors are in the estimate of mean terminal velocity and the zeroth order coefficients of the Fourier series that is fitted to the data. The technique is applied to a cirrus cloud investigated during the FIRE (First International Satellite Cloud Climatology Regional Experiment) Cirrus Intensive Field Observation Program. The results indicate that the error in w is about + or - 14 cm/s from the aircraft technique; this can be reduced to about + or - 2 to 3 cm/s with technical improvements in both ground speed and lateral velocity measurements. The error in w from Doppler lidar measurements, which is about + or - 8 cm/s, can be reduced to about + or - 5 cm/s by improvements in the Doppler velocity measurements with technology that is currently available.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Atmospheric and Oceanic Technology (ISSN 0739-0572); 7; 58-67

Format: text

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