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RECORD NUMBER: 456 OF 1865

OLS Field Name OLS Field Data
Main Title High-Resolution Dataset of Urban Canopy Parameters for Houston, Texas.
Author Burian, S. J. ; Stetson, S. W. ; Han, W. S. ; Ching, J. ;
CORP Author Environmental Protection Agency, Research Triangle Park, NC. National Exposure Research Lab. ;Utah Univ., Salt Lake City. Dept. of Civil and Environmental Engineering. ;National Oceanic and Atmospheric Administration, Silver Spring, MD. Atmospheric Sciences Modeling Div.
Publisher Aug 2004
Year Published 2004
Report Number EPA/600/A-04/084; NERL-RTP-AMD-04-033;
Stock Number PB2004-107461
Additional Subjects Prameterization ; Urban areas ; Meteorology ; Houston Texas ; Atmospheric circulation ; Climate models ; Simulation ; Meetings ; Air quality ; High resolution ; Data collection ; Light detection and ranging (LIDAR) ; Urban canopy parameters (UCPs) ; Synthetic Aperture Radar (SAR)
Internet Access
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https://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=P100R6US.PDF
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NTIS  PB2004-107461 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 10/29/2004
Collation one CD-ROM disc contains a 9 page document.
Abstract Mesoscale meteorological, urban dispersion and air quality simulation models applied at various horizontal scales require different levels of fidelity for specifying the characteristics of the underlying surfaces. As the modeling scales approach the neighborhood level (approx 1 km horizontal grid spacing), the representation of urban structures and surface cover properties requires much greater detail. To provide the most accurate surface characterization possible for an air quality modeling study of Houston, Texas, airborne LIDAR (Light Detection and Ranging) data were obtained at 1- m horizontal grid cell spacing for Harris County, Texas, an area of approximately 5800 km. The gridded dataset of full-feature elevation data was processed using GIS analysis techniques to determine more than 20 urban canopy parameters (UCPs) including building height statistics and histograms, height-to-width ratio, plan area density function, frontal area density function, roughness length, displacement height, mean orientation of streets, and sky view factor. In an effort to improve the efficiency and accuracy of the roughness length derivation, an alternative gridded dataset of roughness length was produced using satellite data collected by Synthetic Aperture Radar (SAR) instrumentation. The comparison of the SAR and morphometric (LIDAR) roughness lengths suggested an integration of the satellite and airborne LIDAR datasets may provide an efficient means to derive a more accurate roughness length gridded dataset. In this paper, we describe the high-resolution Houston UCP dataset, report on the variability of the UCPs across the Houston urban terrain, and present the comparison of the morphometric and SAR roughness lengths.
Supplementary Notes This document is color dependent and/or in landscape layout. It is currently available on CD-ROM and paper only. CD-ROM contains a 9 page document. Presented at the Fifth Symposium on the Urban Environment, American Meteorological Society, Vancouver, BC, Canada, August 23-28, 2004.
Availability Notes Available on CD-ROM and in paper copy only. Order this product from NTIS by: phone at 1-800-553-NTIS (U.S. customers); (703)605-6000 (other countries); fax at (703)605-6900; and email at orders@ntis.gov. NTIS is located at 5285 Port Royal Road, Springfield, VA, 22161, USA.
Category Codes 55; 68A; 55C
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Document Type NT
Cataloging Source NTIS/MT
Control Number 029101080
Origin NTIS
Type CAT