Javier López-Gómez scite author profile

This paper introduces a comprehensive approach based on computer vision for the automatic detection, identification and pose estimation of lamps in a building using the image and location data from low-cost sensors, allowing the incorporation into the building information modelling (BIM). The procedure is based on our previous work, but the algorithms are substantially improved by generalizing the detection to any light surface type, including polygonal and circular shapes, and refining the BIM integration. We validate the complete methodology with a case study at the Mining and Energy Engineering School and achieve reliable results, increasing the successful real-time processing detections while using low computational resources, leading to an accurate, cost-effective and advanced method. The suitability and the adequacy of the method are proved and concluded.

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Photovoltaic Power Prediction Using Artificial Neural Networks and Numerical Weather Data

López-Gómez

Ogando-Martínez

Troncoso-Pastoriza

et al. 2020

Sustainability

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The monitoring of power generation installations is key for modelling and predicting their future behaviour. Many renewable energy generation systems, such as photovoltaic panels and wind turbines, strongly depend on weather conditions. However, in situ measurements of relevant weather variables are not always taken into account when designing monitoring systems, and only power output is available. This paper aims to combine data from a Numerical Weather Prediction model with machine learning tools in order to accurately predict the power generation from a photovoltaic system. An Artificial Neural Network (ANN) model is used to predict power outputs from a real installation located in Puglia (southern Italy) using temperature and solar irradiation data taken from the Global Data Assimilation System (GDAS) sflux model outputs. Power outputs and weather monitoring data from the PV installation are used as a reference dataset. Three training and testing scenarios are designed. In the first one, weather data monitoring is used to both train the ANN model and predict power outputs. In the second one, training is done with monitoring data, but GDAS data is used to predict the results. In the last set, both training and result prediction are done by feeding GDAS weather data into the ANN model. The results show that the tested numerical weather model can be combined with machine learning tools to model the output of PV systems with less than 10% error, even when in situ weather measurements are not available.

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Use of optimised MLP neural networks for spatiotemporal estimation of indoor environmental conditions of existing buildings

Martínez-Comesaña

Ogando-Martínez

Troncoso-Pastoriza³

et al. 2021

Building and Environment

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Comparison between Geostatistical Interpolation and Numerical Weather Model Predictions for Meteorological Conditions Mapping

et al. 2020

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Mapping of meteorological conditions surrounding road infrastructures is a critical tool to identify high-risk spots related to harsh weather. However, local or regional data are not always available, and researchers and authorities must rely on coarser observations or predictions. Thus, choosing a suitable method for downscaling global data to local levels becomes essential to obtain accurate information. This work presents a deep analysis of the performance of two of these methods, commonly used in meteorology science: Universal Kriging geostatistical interpolation and Weather Research and Forecasting numerical weather prediction outputs. Estimations from both techniques are compared on 11 locations in central continental Portugal during January 2019, using measured data from a weather station network as the ground truth. Results show the different performance characteristics of both algorithms based on the nature of the specific variable interpolated, highlighting potential correlations to obtain the most accurate data for each case. Hence, this work provides a solid foundation for the selection of the most appropriate tool for mapping of weather conditions at the local level over linear transport infrastructures.

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IoT-based platform for automated IEQ spatio-temporal analysis in buildings using machine learning techniques

Troncoso-Pastoriza¹,

Martínez-Comesaña

Ogando-Martínez

et al. 2022

Automation in Construction

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Maintenance Factor Identification in Outdoor Lighting Installations Using Simulation and Optimization Techniques

2018

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This document addresses the development of a novel methodology to identify the actual maintenance factor of the luminaires of an outdoor lighting installation in order to assess their lighting performance. The method is based on the combined use of Radiance, a free and open-source tool, for the modeling and simulation of lighting scenes, and GenOpt, a generic optimization program, for the calibration of the model. The application of this methodology allows the quantification of the deterioration of the road lighting system and the identification of luminaires that show irregularities in their operation. Values lower than 9% for the error confirm that this research can contribute to the management of street lighting by assessing real road conditions.

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Use of a numerical weather prediction model as a meteorological source for the estimation of heating demand in building thermal simulations

López-Gómez

Troncoso-Pastoriza

Arce³

et al. 2020

Sustainable Cities and Society

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Reliability of Using Meteorological Data to Estimate Upwelling Events on the Galician Coast

Pérez-Orozco

López-Gómez

Eguía

et al. 2022

Water

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This work is related to the growing interest in the identification of upwelling periods in the Galician SW coast, since these are linked to the great biodiversity and richness of its waters. This paper aims to assess the feasibility of using meteorological data for the estimation of upwelling events in a robust, reliable, real-time and low-cost way. For this purpose, the quality of meteorological data from eight land stations and five coastal buoys located in the surroundings of the study area has been evaluated. This process was made by confronting the result of the meteorological-derived upwelling index calculation against the values provided by two reference oceanic models. In addition, the availability of historical data series has also been considered to finally select the data source that best describes the upwelling phenomena in the Toralla area. The results show that, of the sources studied, those that best meet the criteria of wide data availability and good estimation of the upwelling index are the Ons and Sálvora land stations; therefore, the former was chosen as the main source and the latter as a support. Coastal buoys were discarded due to the uncertainty regarding the availability and access to meteorological data.

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