Your search keyword '"Lu, Xiaomei"' showing total 4 results

1. Laser Pulse Bidirectional Reflectance from CALIPSO Mission

Author

Lu, Xiaomei, Hu, Yongxiang, Yang, Yuekui, Liu, Zhaoyan, Vaughan, Mark, Lucker, Patricia, and Trepte, Charles

Subjects

Geophysics, Earth Resources And Remote Sensing

Abstract

In this Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) study, we present a simple way of determining laser pulse bidirectional reflectance over snow/ice surface using the Cloud-Aerosol LIdar with Orthogonal Polarization (CALIOP) 532 nanometer polarization channels' measurements. The saturated laser pulse returns from snow and ice surfaces are recovered based on surface tail information. The method overview and initial assessment of the method performance will be presented. The retrieved snow surface bidirectional reflectance is compared with reflectance from both CALIOP cloud cover regions and Moderate Resolution Imaging Spectroradiometer (Earth Observing System (EOS)) (MODIS) Bi-directional Reflectance Distribution Function (BRDF) / Albedo model parameters. The comparisons show that the snow surface bidirectional reflectance over Antarctica for saturation region are generally reliable with a mean value of about 0.90 plus or minus 0.10, while the mean surface reflectance from cloud cover region is about 0.84 plus or minus 0.13 and the calculated MODIS reflectance at 555 nanometers from the BRDF / Albedo model with near nadir illumination and viewing angles is about 0.96 plus or minus 0.04. The comparisons here demonstrate that the snow surface reflectance underneath the cloud with cloud optical depth of about 1 is significantly lower than that for a clear sky condition.

Published

2017

2. Retrieval of Ocean Subsurface Particulate Backscattering Coefficient from Space-Borne CALIOP Lidar Measurement

Author

Lu, Xiaomei, Hu, Yongxiang, Pelon, Jacques, Trepte, Chip, Liu, Katie, Rodier, Sharon, Zeng, Shan, Luckher, Patricia, Verhappen, Ron, Wilson, Jamie, Audouy, Claude, Ferrier, Christophe, Haouchine, Said, Hunt, Bill, and Getzewich, Brian

Subjects

Earth Resources And Remote Sensing, Oceanography

Abstract

A new approach has been proposed to determine ocean subsurface particulate backscattering coefficient bbp from CALIOP 30deg off-nadir lidar measurements. The new method also provides estimates of the particle volume scattering function at the 180deg scattering angle. The CALIOP based layer-integrated lidar backscatter and particulate backscattering coefficients are compared with the results obtained from MODIS ocean color measurements. The comparison analysis shows that ocean subsurface lidar backscatter and particulate backscattering coefficient bbp can be accurately obtained from CALIOP lidar measurements, thereby supporting the use of space-borne lidar measurements for ocean subsurface studies.

Published

2016

3. An Innovative Concept for Spacebased Lidar Measurement of Ocean Carbon Biomass

Author

Hu, Yongxiang, Behrenfeld, Michael, Hostetler, Chris, Pelon, Jacques, Trepte, Charles, Hair, John, Slade, Wayne, Cetinic, Ivona, Vaughan, Mark, Lu, Xiaomei, Zhai, Pengwang, Weimer, Carl, Winker, David, Verhappen, Carolus C, Butler, Carolyn, Liu, Zhaoyan, Hunt, Bill, Omar, Ali, Rodier, Sharon, Lifermann, Anne, Josset, Damien, Hou, Weilin, MacDonnell, David, and Rhew, Ray

Subjects

Oceanography

Abstract

Beam attenuation coefficient, c, provides an important optical index of plankton standing stocks, such as phytoplankton biomass and total particulate carbon concentration. Unfortunately, c has proven difficult to quantify through remote sensing. Here, we introduce an innovative approach for estimating c using lidar depolarization measurements and diffuse attenuation coefficients from ocean color products or lidar measurements of Brillouin scattering. The new approach is based on a theoretical formula established from Monte Carlo simulations that links the depolarization ratio of sea water to the ratio of diffuse attenuation Kd and beam attenuation C (i.e., a multiple scattering factor). On July 17, 2014, the CALIPSO satellite was tilted 30Âdeg off-nadir for one nighttime orbit in order to minimize ocean surface backscatter and demonstrate the lidar ocean subsurface measurement concept from space. Depolarization ratios of ocean subsurface backscatter are measured accurately. Beam attenuation coefficients computed from the depolarization ratio measurements compare well with empirical estimates from ocean color measurements. We further verify the beam attenuation coefficient retrievals using aircraft-based high spectral resolution lidar (HSRL) data that are collocated with in-water optical measurements.

Published

2015

4. A Super-Resolution Laser Altimetry Concept

Author

Lu, Xiaomei, Hu, Yongxiang, Trepte, Charles, and Liu, Zhaoyan

Subjects

Geosciences (General)

Abstract

A super-resolution laser altimetry technique has been proposed to provide improved lidar altimetry from Cloud Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) lidar data, and it is applicable to other similar atmospheric profiling lidar with low-pass filters. To achieve high altimetry resolution, the new technique relies on an empirical relationship between the peak signal ratio and the distance between land surface and the peak signal range bin center, which is directly derived from the CALIPSO lidar measurements and does not require the CALIPSO's transient response. The CALIPSO surface elevation results in Northern America retrieved by the new technique agree with the National Elevation Database high resolution elevation maps, and the comparisons suggest that the precision of the technique is much better than 1.4 m. The preliminary data product of land surface elevation retrieved by the new technique from CALIPSO lidar measurements is available to the altimetry community for evaluation.

Published

2014