Specifications
Main heading: Detectors
Controlled terms: Alarm systems - Laser theory - Optical radar - Photons - Pixels
- Probability
Uncontrolled terms: Analytical expressions - Detection probabilities - Fast detections -
High sensitivity - Laser ranging - Multi-pixel photon counters - Numerical results -
System requirements
Classification code: 716.2 Radar Systems and Equipment - 723.5 Computer Applications -
741.1 Light/Optics - 744.1 Lasers, General - 914 Safety Engineering - 922.1 Probability
Theory
Database: Compendex
Compilation and indexing terms, © 2013 Elsevier Inc.
7.
Accession number: 20133716739744
Title: Research on the inter-link interference model in wireless ultraviolet non-line-of-sight
communication
Authors: Zhao, Taifei1 ; Zhang, Aili1 ; Jin, Dan1 ; Guan, Yazhou1/赵太飞;张爱利;金丹;管亚洲
Author affiliation: 1 Faculty of Automation and Information Engineering, Xi'an University of
Technology, Xi'an, Shaanxi 710048, China
Corresponding author: Zhao, T. (year623@163.com)
Source title: Guangxue Xuebao/Acta Optica Sinica
Abbreviated source title: Guangxue Xuebao
Volume: 33
Issue: 7
Issue date: July 2013
Publication year: 2013
Article number: 0706023
Language: Chinese
ISSN: 02532239
CODEN: GUXUDC
Document type: Journal article (JA)
Publisher: Chinese Optical Society, P.O. Box 80, Xi'an, 710068, China
Abstract: The characteristic of scattering and three kinds of inter-link interferences of wireless
ultraviolet non-line-of-sight (NLOS) communication are studied. The wireless ultraviolet NLOS
single scattering communication simulation model based on Monte Carlo method is established.
The correctness of the model is verified by the theoretical formula. Using this model the
non-coplanar inter-link interference in wireless ultraviolet communication is simulated. The
results show that adjusting the receiving elevation and field angle of the working link receiver
reasonably can reduce the inter-link interference and improve the performance of
communication system.
Number of references: 16
Main heading: Computer simulation
Controlled terms: Communication - Monte Carlo methods - Optical communication -
Scattering
Uncontrolled terms: Communication simulation - Field angle - Inter-link interference -