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15 results on '"Sergio, N"'

1. A Spatial-Spectral Classification Method Based on Deep Learning for Controlling Pelagic Fish Landings in Chile

Author

Jorge E. Pezoa, Diego A. Ramírez, Cristofher A. Godoy, María F. Saavedra, Silvia E. Restrepo, Pablo A. Coelho-Caro, Christopher A. Flores, Francisco G. Pérez, Sergio N. Torres, and Mauricio A. Urbina

Subjects
deep learning, fish, hyperspectral imaging, image processing, machine learning, VIS-NIR, Chemical technology, TP1-1185
Abstract

Fishing has provided mankind with a protein-rich source of food and labor, allowing for the development of an important industry, which has led to the overexploitation of most targeted fish species. The sustainable management of these natural resources requires effective control of fish landings and, therefore, an accurate calculation of fishing quotas. This work proposes a deep learning-based spatial-spectral method to classify five pelagic species of interest for the Chilean fishing industry, including the targeted Engraulis ringens, Merluccius gayi, and Strangomera bentincki and non-targeted Normanichthtys crockeri and Stromateus stellatus fish species. This proof-of-concept method is composed of two channels of a convolutional neural network (CNN) architecture that processes the Red–Green–Blue (RGB) images and the visible and near-infrared (VIS-NIR) reflectance spectra of each species. The classification results of the CNN model achieved over 94% in all performance metrics, outperforming other state-of-the-art techniques. These results support the potential use of the proposed method to automatically monitor fish landings and, therefore, ensure compliance with the established fishing quotas.

Published
2023
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2. Digital Classification of Chilean Pelagic Species in Fishing Landing Lines

Author

Vincenzo Caro Fuentes, Ariel Torres, Danny Luarte, Jorge E. Pezoa, Sebastián E. Godoy, Sergio N. Torres, and Mauricio A. Urbina

Subjects
fish recognition, remote sensing, industrial sensors, object detection, computer vision, Chemical technology, TP1-1185
Abstract

Fishing landings in Chile are inspected to control fisheries that are subject to catch quotas. The control process is not easy since the volumes extracted are large and the numbers of landings and artisan shipowners are high. Moreover, the number of inspectors is limited, and a non-automated method is utilized that normally requires months of training. In this work, we propose, design, and implement an automated fish landing control system. The system consists of a custom gate with a camera array and controlled illumination that performs automatic video acquisition once the fish landing starts. The imagery is sent to the cloud in real time and processed by a custom-designed detection algorithm based on deep convolutional networks. The detection algorithm identifies and classifies different pelagic species in real time, and it has been tuned to identify the specific species found in landings of two fishing industries in the Biobío region in Chile. A web-based industrial software was also developed to display a list of fish detections, record relevant statistical summaries, and create landing reports in a user interface. All the records are stored in the cloud for future analyses and possible Chilean government audits. The system can automatically, remotely, and continuously identify and classify the following species: anchovy, jack mackerel, jumbo squid, mackerel, sardine, and snoek, considerably outperforming the current manual procedure.

Published
2023
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13. A Radiometric Technique for Monitoring the Desulfurization Process of Blister Copper

Author

Francisco Pérez, Maximiliano Roa, Sergio N. Torres, Víctor Parra, Ignacio Sanhueza, Roberto Parra, Eduardo Balladares, Alejandro Vásquez, and Hugo A. Rojas

Subjects
0209 industrial biotechnology, spectroscopy, Optical fiber, Materials science, optical sensors, Analytical chemistry, chemistry.chemical_element, 02 engineering and technology, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Chemical reaction, Article, Analytical Chemistry, law.invention, 020901 industrial engineering & automation, law, Emissivity, lcsh:TP1-1185, Electrical and Electronic Engineering, blister copper, Spectroscopy, Instrumentation, sensing, copper converting, Differential optical absorption spectroscopy, 010401 analytical chemistry, pyrometallurgy, Copper, Atomic and Molecular Physics, and Optics, Gas analyzer, 0104 chemical sciences, Flue-gas desulfurization, spectral measurements, chemistry, copper desulfurization, emissivity
Abstract

In this paper, a novel optical technique for following the progress of the blister copper desulfurization process is presented. The technique is based on the changes observed in the continuous spectrum of the visible&ndash, near-infrared (VIS&ndash, NIR) radiation that the blister melt emits while the chemical reactions of the sulfur elimination process are taking place. Specifically, the proposed technique uses an optical probe composed of an optical fiber, a collimating lens, and a quartz tube, which is immersed in the melt. This optical probe provides a field of view of the blowing zone where the desulfurization reaction occurs. The experimental results show that the melt VIS&ndash, NIR total irradiance evolves inversely to the SO2 concentration reported by a gas analyzer based on differential optical absorption spectroscopy. Furthermore, the blister copper spectral emissivity as well as the total emissivity observed throughout the process show strong correlation with the sulfur content during desulfurization reaction.

Published
2021
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14. Erratum: Toro, C. et al. On the Detection of Spectral Emissions of Iron Oxides in Combustion Experiments of Pyrite Concentrates. Sensors 2020, 20, 1284

Author

Víctor Parra, Eduardo Balladares, Roberto Parra, Rodrigo Fuentes, Sergio N. Torres, Rosario Castillo, Gonzalo Reyes, Walter Díaz, and Carlos Toro

Subjects
Materials science, Mineralogy, engineering.material, lcsh:Chemical technology, Combustion, Biochemistry, Atomic and Molecular Physics, and Optics, Analytical Chemistry, n/a, engineering, lcsh:TP1-1185, Pyrite, Electrical and Electronic Engineering, Instrumentation
Abstract

The authors wish to make the following corrections to this paper [...]

Published
2020
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15. On the Detection of Spectral Emissions of Iron Oxides in Combustion Experiments of Pyrite Concentrates

Author

Walter Díaz, Carlos Toro, Víctor Parra, Eduardo Balladares, Rodrigo Fuentes, Gonzalo Reyes, Rosario Castillo, Sergio N. Torres, and Roberto Parra

Subjects
multivariate data analysis, optical sensors, Materials science, Sulfide, principal component analysis, 0211 other engineering and technologies, Oxide, Analytical chemistry, Iron sulfide, 02 engineering and technology, engineering.material, lcsh:Chemical technology, Combustion, 01 natural sciences, Biochemistry, Article, Spectral line, Analytical Chemistry, chemistry.chemical_compound, signal detection, lcsh:TP1-1185, signal reconstruction, Electrical and Electronic Engineering, signal processing, Instrumentation, 021102 mining & metallurgy, Magnetite, chemistry.chemical_classification, 010401 analytical chemistry, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Adiabatic flame temperature, spectral measurements, chemistry, engineering, Pyrite, Erratum, combustion
Abstract

In this paper, we report on the spectral detection of wustite, Fe(II) oxide (FeO), and magnetite, Fe(II, III) oxide (Fe3O4), molecular emissions during the combustion of pyrite (FeS2), in a laboratory-scale furnace operating at high temperatures. These species are typically generated by reactions occurring during the combustion (oxidation) of this iron sulfide mineral. Two detection schemes are addressed: the first consisting of measurements with a built-in developed spectrometer with a high sensitivity and a high spectral resolution. The second one consisting of spectra measured with a low spectral resolution and a low sensitivity commercial spectrometer, but enhanced and analyzed with post signal processing and multivariate data analysis such as principal component analysis (PCA) and a multivariate curve resolution &ndash, the alternating least squares method (MCR-ALS). A non-linear model is also proposed to reconstruct spectral signals measured during pyrite combustion. Different combustion conditions were studied to evaluate the capacity of the detection schemes to follow the spectral emissions of iron oxides. The results show a direct correlation between FeO and Fe3O4 spectral features intensity, and non-linear relations with key combustion variables such as flame temperature, and the combusted sulfide mineral particle size.

Published
2020
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