スポンサーリンク
Center for Environmental Remote Sensing,Chiba University | 論文
- 地理情報システム(GIS)による中国東北部における生物分布帯の気候変動への反応のシミュレーション
- Pattern discrimination of coniferous forest on a temperate subalpine by satellite image
- Study of changes in life zone distribution in north-east China by climate-vegetation classification
- The Forest Vegetation and Its Differentiation under Disturbance in a Temperate Mountain, China
- Reduction of Fringe Noise in Wavelength Modulation Spectroscopy Using a One-Dimensional Focal Plane Array
- High Sensitive Detection of Trace Gases Using Optical Heterodyne Method with a High Finesse Intra-Cavity Resonator
- Vegetation Inventory of a Temperate Biosphere Reserve in China by Image Fusion of Landsat TM and SPOT HRV
- The Measurement of NO_2 Column Density in Chiba City
- Determination of Vertical Distributions of Aerosol Optical Parameters by Use of Multi-Wavelength Lidar Data
- Customization of GPS-GIS application using MapObject and Visual Basic for Tracking System
- Dual-Site Lidar Observations and Satellite Data Analysis for Regional Cloud Characterization
- Cavity-Enhanced Detection of Molecular Absorption under the Scheme of Wavelength Modulation Spectroscopy
- Effect of Multiple Scattering in the Lidar Measurement of Tropospheric Aerosol Extinction Profiles
- Atmospheric Correction of Visible and Near-infrared Satellite Data using Radiance Components: an Improved Treatment of Adjacency Effect
- Adjacency Effect in the Atmospheric Correction of Satellite Remote Sending Data : Evaluation of the Influence of Aerosol Extinction Profiles
- Determination of Aerosol Extinction-to Backscattering Ratio from Multiwavelength Lidar Observation
- Simultaneous Measurement of Wind and Aerosol Backscattering in the Troposphere by High Spectral Resolution Lidar with Iodine Filter
- Daytime Monitoring of Urban NO_2 Column Density by Solar Spectroscopic Method
- Signal Penetration into Thick Clouds Studied by Multi-Layer Data Observed with a Micro-Pulse Lidar
- Simultaneous Observation of NO_2 Column Density and Aerosol Optical Thickness in Urban Atmosphere