Your search keyword '"Francisco Javier Camacho"' showing total 11 results

1. Development of Driving Simulation Scenarios Based on Building Information Modeling (BIM) for Road Safety Analysis

Author

Alfredo García, Jaime Molina, David Llopis-Castelló, Francisco Javier Camacho-Torregrosa, and Juan Francisco Dols Ruiz

Subjects

Computer science, Process (engineering), Driving simulation, INGENIERIA MECANICA, Geography, Planning and Development, 0211 other engineering and technologies, 09.- Desarrollar infraestructuras resilientes, promover la industrialización inclusiva y sostenible, y fomentar la innovación, TJ807-830, 02 engineering and technology, Audit, Management, Monitoring, Policy and Law, TD194-195, Outcome (game theory), Bottleneck, Renewable energy sources, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, 021105 building & construction, 0502 economics and business, Industry Foundation Classes, 03.- Garantizar una vida saludable y promover el bienestar para todos y todas en todas las edades, GE1-350, 050210 logistics & transportation, driving simulation, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, business.industry, 05 social sciences, File format, virtual scenarios design, Environmental sciences, Building information modeling, Data exchange, Road safety, BIM methodology, business, Software engineering, road safety, Virtual scenarios design

Abstract

[EN] The analysis of road safety is critical in road design. Complying to guidelines is not enough to ensure the highest safety levels, so many of them encourage designers to virtually recreate and test their roads, benefitting from the evolution of driving simulators in recent years. However, an accurate recreation of the road and its environment represents a real bottleneck in the process. A very important limitation lies in the diversity of input data, from different sources and requiring specific adaptations for every single simulator. This paper aims at showing a framework for recreating faster virtual scenarios by using an Industry Foundation Classes (IFC)-based file. This methodology was compared to two other conventional methods for developing driving scenarios. The main outcome of this study has demonstrated that with a data exchange file in IFC format, virtual scenarios can be faster designed to carry out safety audits with driving simulators. As a result, the editing, programming, and processing times were substantially reduced using the proposed IFC exchange file format through a BIM (Building Information Modeling) model. This methodology facilitates cost-savings, execution, and optimization resources in road safety analysis., This research was funded by the Spanish Center for Industrial Technological Development (CDTI), as well as the European Regional Development Fund, grant number EXP-00091379/ITC-20161077.

Published

2021

2. An Examination of the Strava Usage Rate-A Parameter to Estimate Average Annual Daily Bicycle Volumes on Rural Roadways

Author

Griselda López-Maldonado, David Llopis-Castelló, Francisco Javier Camacho-Torregrosa, and Alfredo García

Subjects

lcsh:Industrial safety. Industrial accident prevention, Annual average, Context (language use), Track (rail transport), INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Transport engineering, 03 medical and health sciences, Two-lane rural roads, Bicycle volume, 0502 economics and business, 03.- Garantizar una vida saludable y promover el bienestar para todos y todas en todas las edades, lcsh:T55-55.3, Cyclist safety, Short count, Safety, Risk, Reliability and Quality, Recreation, lcsh:R5-920, 050210 logistics & transportation, 0303 health sciences, business.industry, 11.- Conseguir que las ciudades y los asentamientos humanos sean inclusivos, seguros, resilientes y sostenibles, 05 social sciences, Public Health, Environmental and Occupational Health, 030311 toxicology, Rural roads, Geography, Global Positioning System, Strava app, Road safety, lcsh:Medicine (General), Cycling, business, Safety Research

Abstract

[EN] In Spain, a new challenge is emerging due to the increase of many recreational bicyclists on two-lane rural roads. These facilities have been mainly designed for motorized vehicles, so the coexistence of cyclists and drivers produces an impact, in terms of road safety and operation. In order to analyze the occurrence of crashes and enhance safety for bicycling, it is crucial to know the cycling volume. Standard procedures recommend using data from permanent stations and temporary short counts, but bicycle volumes are rarely monitored in rural roads. However, bicyclists tend to track their leisure and exercise activities with fitness apps that use GPS. In this context, this research aims at analyzing the daily and seasonal variability of the Strava Usage Rate (SUR), defined as the proportion of bicyclists using the Strava app along a certain segment on rural highways, to estimate the Annual Average Daily Bicycle (AADB) volume on rural roads. The findings of this study offer possible solutions to policy makers in terms of planning and design of the cycling network. Moreover, the use of crowdsourced data from the Strava app will potentially save costs to public agencies, since public data could replace costly counting campaigns., This research was funded by the Ministry of Science, Innovation, and Universities, grant number TRA2016-80897-R and the General Directorate of Education, Research, Culture and Sport of the Valencian Government, grant number GV/2017/038

Published

2021

3. Analysis of the Influence of Geometric Design Consistency on Vehicle CO2 Emissions

Author

Alfredo García, David Llopis-Castelló, and Francisco Javier Camacho-Torregrosa

Subjects

020209 energy, Two-lane rural road, Transportation, 02 engineering and technology, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Consistency (statistics), Geometric design consistency, Traffic operation, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Production (economics), Naturalistic data, General Environmental Science, Civil and Structural Engineering, 050210 logistics & transportation, business.industry, 05 social sciences, Environmental economics, Environmentally-friendly transport, Geometric design, Homogeneous, Greenhouse gas, CO2 emission, Fuel efficiency, Global Positioning System, Environmental science, business, Global consistency

Abstract

[EN] Highway vehicles driving on rural roads account for more than 50% of all CO2 emissions produced by the transportation sector in Europe. Although the policy measures to mitigate Greenhouse Gas emissions are increasing, these do not include policies aimed at reducing emissions by means of highway geometric design, which significantly influences drivers¿ speeds and accelerations and, consequently, plays a major role on fuel consumption and emissions. Therefore, the main objective of this research is to study the influence of the geometric design consistency on vehicle CO2 emissions. To do this, continuous speed data were collected on 47 homogeneous road segments by means of Global Positioning System devices. Vehicle CO2 emissions were estimated by applying the VT-micro model, whereas geometric design consistency was assessed considering different global consistency models. As a conclusion, vehicle CO2 emissions decreases as the consistency level of a homogeneous road segment increases. Specifically, a good consistency road segment has been found to present an emission rate 20-30% lower than a poor-consistent one. Therefore, the design of consistent roads allows, in addition to maximize road safety, to help to achieve more environmentally sustainable highways, reducing CO2 emission production., The presented study is part of the research project titled “CASEFU – Estudio experimental de la funcionalidad y seguridad de las carreteras convencionales” (TRA2013-42578-P), subsidized by the Spanish Ministryof Economy, Industry, and Competitiveness and the European Social Fund. In addition, authors would like to thank Professor Hesham A. Rakha, Virginia Tech (USA), for providing the VT-Micro model and assessing the authors in its use to obtain outcomes.

Published

2019

4. Use of Heading Direction for Recreating the Horizontal Alignment of an Existing Road

Author

Francisco Javier Camacho-Torregrosa, Ana María Pérez-Zuriaga, Alfredo García, Andrew P. Tarko, and José Manuel Campoy-Ungría

Subjects

Heading (navigation), Sequence, Data collection, Current (mathematics), business.industry, Computer science, Computer Graphics and Computer-Aided Design, Computer Science Applications, Set (abstract data type), Geometric design, Computational Theory and Mathematics, Global Positioning System, Computer vision, Artificial intelligence, business, Digital imagery, Civil and Structural Engineering

Abstract

A new method for fitting the horizontal alignment of a road to a set of (x, y) points is proposed in this article. The proposed method describes the horizontal alignment as a sequence of headings unlike current methods that represent road alignment through curvature.These points are obtained from digital imagery or global positioning system (GPS)-data collection. An analytic-heuristic approach is introduced and the proposed method produces unique solutions for complex horizontal alignments. Researchers and departments of transportation could obtain accurate geometric features using the solution. However, the solution may not be accurate enough for road redesign. The article presented case studies using the method.

Published

2015

5. Influence of highway three‐dimensional coordination on drivers’ perception of horizontal curvature and available sight distance

Author

Francisco Javier Camacho-Torregrosa, Carlos Llorca, Alfredo García, and Ana Tsui Moreno

Subjects

Engineering, Horizontal and vertical, business.industry, Mechanical Engineering, media_common.quotation_subject, Transportation, Survey result, Curvature, Geodesy, Sight, Geometric design, Perception, Crest, Computer vision, Artificial intelligence, Visibility, business, Law, General Environmental Science, media_common

Abstract

Drivers' road perception is an important human factor of comfort and safety on driving. Available sight distance of crest vertical curves superimposed on horizontal curves can be geometrically optimised by applying 3D coordination criteria. However, drivers might not perceive available sight distance improvements. Two approaches were used to investigate the effect of geometrical optimised design on perceived sharpness and visibility of isolated crest vertical curves overlapped with horizontal curves. A survey-based approach was used to evaluate subjective perception of 100 drivers. Three-dimensional renderings were displayed to subjects; who were asked to rank the curves by sharpness and sight distance. Moreover, 50 of those drivers previously participated on a driving simulation experiment involving the same curves, so objective driving data were collected too. Drivers' survey results indicate that driver's curve perception depends on the algebraic difference of grades while coordination of vertical and horizontal curves does not appear to affect this perception. On the other hand, the operating speeds on different curves were not statistically different from each other. Surprisingly, the operating speeds on a flat curve tended to be lower than on the vertical crest curves superimposed on the same horizontal curve. Likely causes are discussed in the paper.

Published

2013

6. Design and development of driving simulator scenarios for road validation studies

Author

Javier Marín-Morales, Francisco Javier Camacho, Ana María Pérez-Zuriaga, Jaime Molina, Juan F. Dols, and Alfredo García

Subjects

Engineering, INGENIERIA MECANICA, Audit, Driving simulator, 010501 environmental sciences, 01 natural sciences, INGENIERÍA DEL TRANSPORTE, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Transport engineering, Software, Development (topology), 0502 economics and business, Layer (object-oriented design), 0105 earth and related environmental sciences, Structure (mathematical logic), 050210 logistics & transportation, business.industry, 05 social sciences, Road validation studies, Geometric design, Systems engineering, Engineering research, business, Simulator scenarios design

Abstract

[EN] In recent years, the number of road-based studies using driving simulators is growing significantly. This allows evaluating controlled situations that otherwise would require disproportionate observations in time and/or cost. The Institute of Design and Manufacturing (IDF) of the Polytechnic University of Valencia (UPV) has developed, in collaboration with the Engineering Research Group Highway (GIIC) of the UPV, a low cost simulator that allows rapid implementation and effectively a new methodology for validation studies of different roads through the implementation in the simulator scenarios of existing roads. This methodology allows the development of new scenarios based on the analysis of a layers-file system. Each layer includes different information from the road, such as mapping, geometry, signaling, aerial photos, etc. The creation of the simulated scenario is very fast based on the geometric design software, making it easier to consulting firms using the system that can evaluate and audit a particular route, obtaining reliable conclusions at minimal cost, even if the road is not actually built. This paper describes the basic structure of the layers generated for developing scenarios and guidelines for the implementation thereof. Finally the application of this methodology to a case of success will be described., Authors would like to thank Polytechnic University of Valencia (UPV) that subsidizes the research project CONSIM (PAID 05-2012).

Published

2016

7. Validation of Low-Cost Driving Simulator Based on Continuous Speed Profiles

Author

Ana María Pérez-Zuriaga, Javier Marín-Morales, David Llopis-Castelló, Juan F. Dols, Francisco Javier Camacho-Torregrosa, and Alfredo García

Subjects

Accident prevention, Engineering, Driving tasks, INGENIERIA MECANICA, Real environments, Highway planning, Transportation, Road section, Driving simulator, Automotive engineering, Virtual reality, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Speed profile, 0502 economics and business, Simulators, 0501 psychology and cognitive sciences, Operating speed, 050107 human factors, Simulation, Civil and Structural Engineering, 050210 logistics & transportation, Safety studies, business.industry, Mechanical Engineering, 05 social sciences, Rural roads, Highway engineering, Roads and streets, Average speed, Motor transportation, Geometric design, Automobile simulators, Highway geometric design, Human computer interaction, Street traffic control, business

Abstract

[EN] The number of road safety studies that are based on driving simulators is growing significantly. The Polytechnic University of Valencia, Spain, developed a low-cost driving simulator for the assessment, training, and rehabilitation of drivers (SE2RCO). The main objective of this research was the validation of the driving simulator so that studies about road safety and highway geometric design that considered human factors could be performed. The validation was based on continuous speed profiles collected from 28 volunteers on a 30-km-long, two-lane rural road section. The same volunteers drove through the same road section built in SE2RCO. Speed data of 79 curves and 52 tangents were selected for the analysis. Comparison of the real and simulated speeds ensured the simulator's objective validity according to average and operating speeds. Two models were developed to predict field speeds from simulated speeds. Results showed that a simulated average speed lower than approximately 90 km/h was linked to a similar real average speed. For higher simulated speeds, the average speed in the real environment was lower than the simulated one. In addition, the actual operating speed was around 5 km/h lower than the operating speed in the driving simulator. Most volunteers assessed the quality and similarity of the virtual environment compared with the real world as medium or high and assessed the driving tasks similarly, thus achieving subjective validation of the simulator., The authors thank the Polytechnic University of Valencia, which subsidized the research project CONSIM-Desarrollo de un Modelo para la Evaluacion de la Consistencia del Diseno Geometric de Carreteras Convencionales Mediante Simuladores de Conduccion. The study presented here was also part of the research project titled CASEFU-Estudio Experimental de la Funcionalidad y Seguridad de las Carreteras Convencionales, which was subsidized by the Spanish Ministry of Economy and Competitiveness and the European Social Fund.

Published

2016

8. New consistency index based on inertial operating speed

Author

Alfredo García, David Llopis-Castelló, Francisco Javier Camacho-Torregrosa, and Ana María Pérez-Zuriaga

Subjects

Engineering, Inertial frame of reference, business.industry, Calibration (statistics), Mechanical Engineering, Consistency model, Tangent, Traffic flow, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Design speed, Consistency (statistics), Statistics, Operating speed, business, Simulation, Civil and Structural Engineering

Abstract

The occurrence of road crashes depends on several factors, with design consistency (i.e., conformance of highway geometry to drivers' expectations) being one of the most important. A new consistency model for evaluating the performance of tangent-to-curve transitions on two-lane rural roads was developed. This model was based on the inertial consistency index (ICI) defined for each transition. The ICI was calculated at the beginning point of the curve as the difference between the average operating speed on the previous 1-km road segment (inertial operating speed) and the actual operating speed at this point. For the calibration of the ICI and its thresholds, 88 road segments, which included 1,686 tangent-to-curve transitions, were studied. The relationship between those results and the crash rate associated with each transition was analyzed. The results showed that the higher the ICI was, the higher the crash rate; thus, the probability of accidents increased. Similar results were obtained from the study of the relationship between the ICI and the weighted average crash rate of the corresponding group of transitions. A graphical and statistical analysis established that road consistency might be considered good when the ICI was lower than 10 km/h, poor when the ICI was higher than 20 km/h, and fair otherwise. A validation process that considered 20 road segments was performed. The ICI values obtained were highly correlated to the number of crashes that had occurred at the analyzed transitions. Thus, the ICI and its consistency thresholds resulted in a new approach for evaluation of consistency., The authors thank the Center for Studies and Experimentation of Public Works of the Spanish Ministry of Public Works, which partially subsidized the data collection, for obtaining the empirical operating speed profiles used in the validation process. The authors also thank the General Directorate of Public Works of the Infrastructure and Transportation Department of the Valencian government, the Valencian Province Council, and the General Directorate of Traffic of the Ministry of the Interior of the Government of Spain for their cooperation in data gathering.

Published

2013

9. Application of Global Positioning System and questionnaires data for the study of driver behavior on two-lane rural roads

Author

Alfredo García, Ana María Pérez-Zuriaga, José Manuel Campoy-Ungría, and Francisco Javier Camacho-Torregrosa

Subjects

Engineering, business.industry, Mechanical Engineering, INGENIERIA DEL TERRENO, Consistency model, Transportation, Advanced driver assistance systems, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Transport engineering, Naturalistic observation, Geometric design, Key (cryptography), Global Positioning System, TRIPS architecture, Operating speed, business, Law, General Environmental Science

Abstract

Methodologies based on naturalistic observation provide the most accurate data for studying drivers' behaviour. This study presents a new methodology to obtain naturalistic data related to drivers' behaviour in a road segment. It is based on the combination of using global positioning system data and drivers' questionnaires. The continuous speed profiles along a road segment and the characteristics of drivers, of their trips and the type of their vehicles can be obtained for a great amount of drivers. It has already been successfully used for several studies, such as the development of models to estimate operating speed profile in two-lane rural road segments; or the characterisation of driving styles. These operating speed models have been the key for the development of a new geometric design consistency model, allowing an easier road safety evaluation. Besides, knowledge on the human factors that influence speed choice may be useful for road safety media campaigns and education programs designers, and also for the improvement of intelligent driver assistance systems., The authors thank 'Centre for Studies and Experimentation of Public Works (CEDEX)' of the 'Spanish Ministry of Public Works' that partially subsidizes the research. We also wish to thank to the 'General Directorate of Public Works, Urban Projects and Housing' of the 'Infrastructure, Territory and Environment Department' of the 'Valencian Government', to the 'Valencian Provincial Council' and to the 'General Directorate of Traffic' of the 'Ministry of the Interior' for their cooperation in field data gathering.

Published

2013

10. New geometric design consistency model based on operating speed profiles for road safety evaluation

Author

J. Manuel Campoy-Ungría, Francisco Javier Camacho-Torregrosa, Alfredo García-García, and Ana María Pérez-Zuriaga

Subjects

Rural Population, Engineering, Automobile Driving, Deceleration, Design consistency, Poison control, Human Factors and Ergonomics, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Consistency (statistics), Crash estimation, Humans, Statistical dispersion, Operating speed, Safety, Risk, Reliability and Quality, Simulation, Data collection, business.industry, INGENIERIA DEL TERRENO, Public Health, Environmental and Occupational Health, Accidents, Traffic, Consistency model, Models, Theoretical, Reliability engineering, Surrogate measures, Geometric design, Crash frequency, Road safety, Environment Design, Safety, business

Abstract

[EN] To assist in the on-going effort to reduce road fatalities as much as possible, this paper presents a new methodology to evaluate road safety in both the design and redesign stages of two-lane rural highways. This methodology is based on the analysis of road geometric design consistency, a value which will be a surrogate measure of the safety level of the two-lane rural road segment. The consistency model presented in this paper is based on the consideration of continuous operating speed profiles. The models used for their construction were obtained by using an innovative GPS-data collection method that is based on continuous operating speed profiles recorded from individual drivers. This new methodology allowed the researchers to observe the actual behavior of drivers and to develop more accurate operating speed models than was previously possible with spot-speed data collection, thereby enabling a more accurate approximation to the real phenomenon and thus a better consistency measurement. Operating speed profiles were built for 33 Spanish two-lane rural road segments, and several consistency measurements based on the global and local operating speed were checked. The final consistency model takes into account not only the global dispersion of the operating speed, but also some indexes that consider both local speed decelerations and speeds over posted speeds as well. For the development of the consistency model, the crash frequency for each study site was considered, which allowed estimating the number of crashes on a road segment by means of the calculation of its geometric design consistency. Consequently, the presented consistency evaluation method is a promising innovative tool that can be used as a surrogate measure to estimate the safety of a road segment., The authors would like to thank the Center for Studies and Experimentation of Public Works (CEDEX) of the Spanish Ministry of PublicWorks for partially subsidizing this research.We also wish to thank the Infrastructure and Transportation Department of the General Directorate of Public Works of the Valencian Government, to the Valencian Provincial Council, and to the Ministry of the Interior, especially the General Directorate of Traffic of Spain, for their cooperation in field data gathering.

Published

2011

11. Modeling Operating Speed and Deceleration on Two-Lane Rural Roads with Global Positioning System Data

Author

Francisco Javier Camacho Torregrosa, Pierangelo D'Attoma, Ana María Pérez Zuriaga, and Alfredo García

Subjects

Engineering, Mathematical model, business.industry, Mechanical Engineering, Tangent, Midpoint, Automotive engineering, INGENIERIA E INFRAESTRUCTURA DE LOS TRANSPORTES, Consistency (database systems), Geometric design, Global Positioning System, Design process, business, Operating speed, Civil and Structural Engineering

Abstract

[EN] In the road design process, speed variation along the road segment is an important issue to consider in adapting road geometry to drivers' expectations. To achieve this objective, speed criteria are used to evaluate road consistency. Being able to estimate the operating speed in the design phase can lead to safer road alignment. With this objective, several researchers have developed operating speed models. Most of these models are based on collected spot speed data. They assume constant speed on curves and, therefore, deceleration that occurs entirely on the approach tangent. According to these assumptions, spot speed data are collected at the center of the horizontal curve and at the midpoint of the preceding tangent to obtain operating speed models. This paper presents a new methodology based on the use of Global Positioning System devices that allow continuous collecting and processing of speed data. With this new methodology, not only can new and more accurate operating speed models he developed, but cited hypotheses can also be checked. Observed speed continuous profiles allow studies that previously could not be done, especially as related to deceleration and speed variations. This study calibrated new speed models, including three for horizontal curves with a radius curve and the curvature change rate of a single curve as explanatory variables, and one for tangents that incorporates the curve speed model. Tangent-curve speed variations are evaluated, with comparison of Delta(85)V and Delta V(85), analysis of the deceleration length occurring on a curve, and development of two deceleration models., The authors thank the Center for Studies and Experimentation of Public Works of the Spanish Ministry of Public Works, which partially subsidized the research. The authors also thank the Infrastructure and Transportation Department, General Directorate of Public Works, Valencian Government, Spain; the Valencian Provincial Council; and the Ministry of the Interior, General Directorate of Traffic, Spain, for their cooperation in field data gathering.

Published

2010