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You are viewing titles for CITY UNIVERSITY OF NEW YORK in the Remote sensing available through the UMI Dissertations & Thesis Gradwoorks site
 
Lidar signal-to-noise ratio improvements: Considerations and techniques
 Integrating remote sensing, geographic information system and modeling for estimating crop yield
 
The end of the line: The relationship between New York City's subway system and residential class structure
 Characterization of biomass burning: Fourier transform infrared analysis of wood and vegetation combustion products
 
Error correction of the Normalized Difference Vegetation Index and Brightness Temperature calculated from the AVHRR observations
 Methods of assessing uncertainty in aerosol properties as interpreted from lidar measurements
 
Intra and inter-continental aerosol transport and local and regional impacts
 A robust neural network system ensemble approach for detecting and estimating snowfall from the advanced microwave sounding unit
 
Urban surface temperature retrieval from space through emissivity classification
 Characterizing vegetation structure and biomass using lidar remote sensing
 
Development of an advanced technique for mapping and monitoring sea and lake ice for the future GOES-R Advanced Baseline Imager (ABI)
 Hybrid application of AVHRR based satellite remote sensing and ENSO signals for early warning and monitoring of Malaria in Asia and South America
 
Utilizing Operational and Improved Remote Sensing Measurements to Assess Air Quality Monitoring Model Forecasts
 Improved retrieval of global land emissivity from AMSR-E observations
 
Dynamics of terrestrial water budget over Amazon and Mississippi basins using satellite data
 Multi-source precipitation estimation: Filling gaps over the radar precipitation field
 
Development and Assessment of a Neural Network Approach for Retrieving Aerosol Properties from Multispectral, Multiangle Polarization Measurements
 Bidirectional reflectance correction model for coastal water and its application to minimization of uncertainties in satellite and in-situ water leaving radiances at Long Island Sound Coastal Observatory site