Specifications
the three channels are discussed and verify that this configuration can achieve a high rejection
rate (10-7) to Mie-Rayleigh scattering. The theoretical and experimental results show that water
vapor detection error of less than 15% can be obtained under a backscatter ratio of 17, which
demonstrates the feasibility of the system for the atmospheric aerosol and water vapor
measurements. © 2013 Chinese Physical Society.
Number of references: 20
Main heading: Signal detection
Controlled terms: Atmospheric aerosols - Backscattering - Computer
simulation - Mixing - Moisture - Optical radar - Rayleigh scattering - Signal to noise
ratio - Spectroscopic analysis - Water vapor
Uncontrolled terms: Atmospheric backscatters - Atmospheric water
vapor - Narrowband interference filters - Raman LIDAR - Signaltonoise ratio
(SNR) - Theoretical and experimental - Water vapor measurement - Water vapor mixing
ratio
Classification code: 802.3 Chemical Operations - 801 Chemistry - 723.5 Computer
Applications - 716.2 Radar Systems and Equipment - 716.1 Information Theory and Signal
Processing - 711 Electromagnetic Waves - 641 Heat and Mass Transfer; Thermodynamics
DOI: 10.7498/aps.62.120701
Database: Compendex
Compilation and indexing terms, © 2013 Elsevier Inc.
13.
Accession number: 20132916512425
Title: Research of data quality assurance about ETL of telecom data warehouse
Authors: Wei, Sun1 ; Wei, Wei2 ; Zhang, Jing2 ; Wang, Wei2 ; Zhao, Jinwei2 ; Li, Junhuai2 ;
Shen, Peiyi3 ; Yin, Xiaoyan4 ; Xiao, Xiangrong5 ; Hu, Jie2/孙伟;魏嵬;张璟;李军怀;沈沛意;;;
Author affiliation:
1 Department of Information Engineering, Shaanxi Polytechnic Institute, Shaanxi, Xian'yang,
712000, China
2 School of Computer Science and Engineering, XI'an University of Technology, XI'an 710048,
China
3 National School of Software, Xidian University, 710071, Xi'an, Shaanxi, China
4 Department of Computer Science and Technology, Northwest University, Xi'an 710127,
China
5 School of Information Engineering, Zhejiang Agriculture and Forest University, China
Corresponding author: Wei, S.
Source title: Information Technology Journal
Abbreviated source title: Inf. Technol. J.
Volume: 12
Issue: 9
Issue date: 2013
Publication year: 2013
Pages: 1839-1844
Language: English
ISSN: 18125638