Erik Rúa scite author profile

Erik Rúa

5Publications

2Citation Statements Received

73Citation Statements Given

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118

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Universidade de Vigo

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Heuristic Generation of Multispectral Labeled Point Cloud Datasets for Deep Learning Models

Comesaña-Cebral

Martínez-Sánchez

Rúa

et al. 2022

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. Deep Learning (DL) models need big enough datasets for training, especially those that deal with point clouds. Artificial generation of these datasets can complement the real ones by improving the learning rate of DL architectures. Also, Light Detection and Ranging (LiDAR) scanners can be studied by comparing its performing with artificial point clouds. A methodology for simulate LiDAR-based artificial point clouds is presented in this work in order to get train datasets already labelled for DL models. In addition to the geometry design, a spectral simulation will be also performed so that all points in each cloud will have its 3 dimensional coordinates (x, y, z), a label designing which category it belongs to (vegetation, traffic sign, road pavement, …) and an intensity estimator based on physical properties as reflectance.

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A top-down approach for a multi-scale identification of risk areas in infrastructures: particularization in a case study on road safety

Rúa

Comesaña-Cebral

Arias

et al. 2022

Eur. Transp. Res. Rev.

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Introduction Transport infrastructures have an important function in society and the development of a country. In Spain, the most used modes of traveler transport are road and rail, far ahead of other means of transport such as air or maritime transport. Both rail and road infrastructures can be affected by numerous hazards, endangering their performance and the safety of users. This study proposes a methodology with a multiscale top-down approach to identify the areas affected by fire, landslide, and safety in road and rail infrastructures in Galicia (Northwest Spain). Methodology The methodology is developed in three steps, coinciding with the three scales considered in this work: network-, system-, and object-level. In the first step, risk areas are identified and prioritized, resulting in the most critical safety risk in a motorway section. This area defines a study scenario composed of a location (A-55 motorway) and the associated risk (road safety). In the second step, the road safety factors within this scenario are selected, hierarchized, and weighted using a combination of Multi-Criteria Decision-Making methods including the Analytical Hierarchy Process and the Best–Worst Method. Finally, a risk map is generated based on the weighting of infrastructure-related safety factors and compared to real historical accident data for validation. The methodology is based on road and risk assessment standards and only information in the public domain is used. Results Results show that only 3 segments out of 153 were classified incorrectly, which supports a probability higher than 95% of agreement with real data (at 5% significance level). In a conclusion, the overall methodology exhibits a high potential for hazard prevention and road-safety enhancement.

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First results of a methodology to obtain a 1D variable geometry model for the structural analysis of corroded steel beams from the point cloud

et al. 2021

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Automatic detection to inventory road slopes using open LiDAR point clouds

Rúa

Núñez-Seoane

Arias

et al. 2023

International Journal of Applied Earth Observation and Geoinfor

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Latest trends for condition assessment using non-destructive techniques

Sánchez‐Rodríguez

Rúa

Martínez-Sánchez

et al. 2022

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<p>Bridges are one of the most vulnerable assets within the transportation network. Ageing processes in combination with changing loading conditions make these assets especially vulnerable to structural damage and material degradation. To ensure the optimal operation, appropriate maintenance practices are required, and new techniques and methods facilitating a more accurate diagnostic and safety assessment are being demanded.</p><p>IM-SAFE project aims to fill the gaps in the existing European standards regarding monitoring, maintenance, and safety of transport infrastructure. This paper gathers information about surveying technologies with a focus on optical and radar remote sensing technologies. The final purpose of this article is to support the use of these technologies in the management of bridges and tunnels, and demonstrate the value of their information for the safety assessment of in-service structures.</p>

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Erik Rúa

Heuristic Generation of Multispectral Labeled Point Cloud Datasets for Deep Learning Models

A top-down approach for a multi-scale identification of risk areas in infrastructures: particularization in a case study on road safety

First results of a methodology to obtain a 1D variable geometry model for the structural analysis of corroded steel beams from the point cloud

Automatic detection to inventory road slopes using open LiDAR point clouds

Latest trends for condition assessment using non-destructive techniques

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