F.C. Trigo scite author profile

In this paper, we propose an algorithm that, using the extended Kalman filter, solves the inverse problem of estimating the conductivity/resistivity distribution in electrical impedance tomography (EIT). The algorithm estimates conductivity/resistivity in a wide range. The purpose of this investigation is to provide information for setting and controlling air volume and pressure delivered to patients under artificial ventilation. We show that, when the standard deviation of the measurement noise level raises up to 5% of the maximal measured voltage, the conductivity estimates converge to the expected vector within 7% accuracy of the maximal conductivity value, under numerical simulations, with spatial a priori information. A two-phase identification procedure is proposed. A cylindrical phantom with saline solution is used for experimental evaluation. An abrupt modification on the resistivity distribution of this solution is caused by the immersion of a glass object. Estimates of electrode contact impedances and images of the glass object are presented.

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Identification of the state-space dynamics of oil flames through computer vision and modal techniques

Silva

Fleury

Martins

et al. 2015

Expert Systems with Applications

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A finite element method approach to compare the wear of acetabular cups in polyethylene according to their lateral tilt in relation to the coronal plane

Queiroz

Oliveira

Trigo

et al. 2013

Wear

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A new approach based on computer vision and non-linear Kalman filtering to monitor the nebulization quality of oil flames

Fleury

Trigo

Martins

2013

Expert Systems with Applications

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An inference model for combustion diagnostics in an experimental oil furnace

et al. 2017

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The continuous monitoring of the air/fuel ratio, oil/water/air temperatures, and gas/particulate emissions of combustion processes in oil‐based furnaces allows experts to detect anomalies and act to prevent faults and critical conditions. These important but tedious tasks can be performed by an expert system designed to mimic the human abilities of recognizing relevant patterns and finding their most likely causes. In this article, we present the architecture of an expert system that uses flame images grabbed during the combustion process in an experimental oil furnace as input parameters. Computational processing of those images provides feature vectors for analysis by “artificial experts” that correlate changes in flame appearance with typical combustion states. The Dempster–Shafer method is used to build the knowledge base and the inference engine. The results of tests in which flame conditions are suddenly modified by altering the physical variables of the combustion process revealed that the method can properly combine measures from various flame image characteristics to issue diagnostics. Such diagnostics are similar to those given by human experts. This suggests that the proposed approach may fill the gap between models based on features extracted from images and real‐world operating conditions. This is the intended contribution of this work.

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F.C. Trigo

Electrical Impedance Tomography Using the Extended Kalman Filter

Identification of the state-space dynamics of oil flames through computer vision and modal techniques

A finite element method approach to compare the wear of acetabular cups in polyethylene according to their lateral tilt in relation to the coronal plane

A new approach based on computer vision and non-linear Kalman filtering to monitor the nebulization quality of oil flames

An inference model for combustion diagnostics in an experimental oil furnace

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