Email this article Optoelectronic scanning system upgrade by energy center localization methods
- Authors: Flores-Fuentes W.1, Sergiyenko O.1, Rodriguez-Quiñonez J.C.1, Rivas-López M.1, Hernández-Balbuena D.1, Básaca-Preciado L.C.2, Lindner L.1, González-Navarro F.F.1
-
Affiliations:
- Universidad Autonoma de Baja California
- CETYS Universidad
- Issue: Vol 52, No 6 (2016)
- Pages: 592-600
- Section: Optical Information Technologies
- URL: https://journals.rcsi.science/8756-6990/article/view/212041
- DOI: https://doi.org/10.3103/S8756699016060108
- ID: 212041
Cite item
Open Access
Access granted
Subscription Access
Abstract
A problem of upgrading an optoelectronic scanning system with digital post-processing of the signal based on adequate methods of energy center localization is considered. An improved dynamic triangulation analysis technique is proposed by an example of industrial infrastructure damage detection. A modification of our previously published method aimed at searching for the energy center of an optoelectronic signal is described. Application of the artificial intelligence algorithm of compensation for the error of determining the angular coordinate in calculating the spatial coordinate through dynamic triangulation is demonstrated. Five energy center localization methods are developed and tested to select the best method. After implementation of these methods, digital compensation for the measurement error, and statistical data analysis, a non-parametric behavior of the data is identified. The Wilcoxon signed rank test is applied to improve the result further. For optical scanning systems, it is necessary to detect a light emitter mounted on the infrastructure being investigated to calculate its spatial coordinate by the energy center localization method.
Keywords
About the authors
W. Flores-Fuentes
Universidad Autonoma de Baja California
Author for correspondence.
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
O. Sergiyenko
Universidad Autonoma de Baja California
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
J. C. Rodriguez-Quiñonez
Universidad Autonoma de Baja California
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
M. Rivas-López
Universidad Autonoma de Baja California
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
D. Hernández-Balbuena
Universidad Autonoma de Baja California
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
L. C. Básaca-Preciado
CETYS Universidad
Email: flores.wendy@uabc.edu.mx
Mexico, Rivera, Calz. Cetys S/N, Mexicali, 21259
L. Lindner
Universidad Autonoma de Baja California
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
F. F. González-Navarro
Universidad Autonoma de Baja California
Email: flores.wendy@uabc.edu.mx
Mexico, Blvd. Benito Juarez S/N, Mexicali, 21280
Supplementary files
