An ANN-Based Smart Tomographic Reconstructor in a Dynamic Environment

de Cos Juez, Francisco J.

Pontificia Universidad Católica de Chile

Ir al sitio UC

ADMISION

Covid-19

Medios

Biblioteca

Donaciones

Mi Portal UC

Correo
- Correo UC
- Correo GMAIL UC

Información

Tipo de documentoartículo

Documentos de este título

An ANN-Based Smart Tomographic Reconstructor in a Dynamic Environment.pdf

Datos investigador

de Cos Juez, Francisco J. Sanchez Lasheras, Fernando Roqueni, Nieves Osborn, James

Altmetric

Comparte este registro

In astronomy, the light emitted by an object travels through the vacuum of space and then the turbulent atmosphere before arriving at a ground based telescope. By passing through the atmosphere a series of turbulent layers modify the light's wave-front in such a way that Adaptive Optics reconstruction techniques are needed to improve the image quality. A novel reconstruction technique based in Artificial Neural Networks (ANN) is proposed. The network is designed to use the local tilts of the wave-front measured by a Shack Hartmann Wave-front Sensor (SHWFS) as inputs and estimate the turbulence in terms of Zernike coefficients. The ANN used is a Multi-Layer Perceptron (MLP) trained with simulated data with one turbulent layer changing in altitude. The reconstructor was tested using three different atmospheric profiles and compared with two existing reconstruction techniques: Least Squares type Matrix Vector Multiplication (LS) and Learn and Apply (L + A).

Registro Sencillo
Registro Completo

Autor	de Cos Juez, Francisco J. Sanchez Lasheras, Fernando Roqueni, Nieves Osborn, James
Título	An ANN-Based Smart Tomographic Reconstructor in a Dynamic Environment
Revista	SENSORS
ISSN	1424-8220
Volumen	12
Número de publicación	7
Página inicio	8895
Página final	8911
Fecha de publicación	2012
Resumen	In astronomy, the light emitted by an object travels through the vacuum of space and then the turbulent atmosphere before arriving at a ground based telescope. By passing through the atmosphere a series of turbulent layers modify the light's wave-front in such a way that Adaptive Optics reconstruction techniques are needed to improve the image quality. A novel reconstruction technique based in Artificial Neural Networks (ANN) is proposed. The network is designed to use the local tilts of the wave-front measured by a Shack Hartmann Wave-front Sensor (SHWFS) as inputs and estimate the turbulence in terms of Zernike coefficients. The ANN used is a Multi-Layer Perceptron (MLP) trained with simulated data with one turbulent layer changing in altitude. The reconstructor was tested using three different atmospheric profiles and compared with two existing reconstruction techniques: Least Squares type Matrix Vector Multiplication (LS) and Learn and Apply (L + A).
Derechos	acceso abierto
Agencia financiadora	Spanish Science and Innovation Ministry School of Engineering, Pontificia Universidad Catolica de Chile European Southern Observatory
DOI	10.3390/s120708895
Editorial	MDPI
Enlace	https://doi.org/10.3390/s120708895 https://repositorio.uc.cl/handle/11534/79074
Id de publicación en Pubmed	MEDLINE:23012524
Id de publicación en WoS	WOS:000306796500027
Paginación	17 páginas
Palabra clave	MOAO adaptive optics neural networks reconstructor Zernike OPTIMAL LINEAR-COMBINATIONS ARTIFICIAL NEURAL-NETWORKS ADAPTIVE-OPTICS PERFORMANCE HARDWARE NONLINEARITIES PRINCIPLES
Tema ODS	13 Climate Action
Tema ODS español	13 Acción por el clima
Tipo de documento	artículo