Desarrollo de un entorno virtual de entrenamiento con interacción háptica para la prevención y gestión del riesgo laboral

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dc.contributor.advisorOlarte Dussán, Fredy Andrés
dc.contributor.authorCárdenas Bocanegra, Vladimir Alfonso
dc.contributor.researchgroupTecnología Para la Educación y la Innovaciónspa
dc.date.accessioned2022-08-22T13:18:17Z
dc.date.available2022-08-22T13:18:17Z
dc.date.issued2021
dc.descriptionilustraciones, fotografías, graficasspa
dc.description.abstractLos mecanismos de entrenamiento para disminución de la accidentalidad laboral son espacios de mejora continua donde la aplicación de nuevas tecnologías genera un impacto importante. A pesar de la existencia de diferentes alternativas para entrenamiento incluyendo escenarios de realidad virtual, no es común encontrar desarrollos que incluyan dispositivos hápticos los cuales podrían mejorar la sensación inmersiva de estos entornos. Buscando contribuir en esta temática se diseñó un entorno de entrenamiento virtual que integra dispositivos hápticos para su interacción. El entorno incluyó dos escenarios de prueba, una subestación eléctrica y un pozo petrolero, así como las diferentes plantillas que permitan reproducir el desarrollo en diferentes escenarios. El entorno está conformado por un visor de realidad virtual Oculus, guantes de interacción háptica captoglove que permiten controlar el movimiento del personaje a través de gestos y un chaleco háptico b-haptix que genera vibración en la presencia de algún tipo de peligro. Entre las situaciones peligrosas incluidas en el desarrollo está la fragmentación de objetos, fuga de gas, arco eléctrico, presencia de humo y material particulado para los cuales se desarrolló el código que permite controlar su ubicación, duración, imagen de alerta, patrón de vibración en el chaleco y sonido. La validación del desarrollo se realizó en colaboración de un grupo de 23 operarios con experiencia promedio de siete años en actividades de campo, que están expuestos a diario a todo tipo de peligro. La investigación permitió concluir que tanto la generación de entornos virtuales de entrenamiento como la integración de dispositivos hápticos representan una mejora importante en el objetivo de contribuir con espacios de formación seguros que reduzcan la accidentalidad laboral. (Texto tomado de la fuente)spa
dc.description.abstractOccupational accidents and possible actions to prevent it are a space for continuous improvement where the application of new technologies generates a significant impact. However, although it is possible to find several alternatives, it is not common to find developments that include haptic devices which could improve the immersive sensation. In order to contribute to this topic, was designed a virtual training environment that integrates haptic devices for their interaction. The environment included two test scenarios, an electrical substation and an oil well, as well as the different templates that allow them to be reproduced with different environments. The devices chosen were the Oculus virtual reality glasses, the captoglove haptic interaction gloves and the b-haptix haptic vest. The risks included in the development are fragmentation of objects, gas leakage, electric arc, presence of smoke and particulate matter. For them, a programming code was developed that allows control of location, duration, alert image, vibration pattern in the vest and sound. For the validation of the development, we counted with the collaboration of a group of 23 workers with an average experience of seven years in field activities, who are exposed to all kinds of risks on a daily basis. The validator group concluded that, thanks to the immersive feel and graphic detail, the development was useful for training risky conditions in safe environments.eng
dc.description.degreelevelMaestríaspa
dc.description.degreenameMagíster en Ingeniería - Automatización Industrialspa
dc.description.researchareaAutomatización de Procesosspa
dc.format.extent79 páginasspa
dc.format.mimetypeapplication/pdfspa
dc.identifier.instnameUniversidad Nacional de Colombiaspa
dc.identifier.reponameRepositorio Institucional Universidad Nacional de Colombiaspa
dc.identifier.repourlhttps://repositorio.unal.edu.co/spa
dc.identifier.urihttps://repositorio.unal.edu.co/handle/unal/81982
dc.language.isospaspa
dc.publisherUniversidad Nacional de Colombiaspa
dc.publisher.branchUniversidad Nacional de Colombia - Sede Bogotáspa
dc.publisher.departmentDepartamento de Ingeniería Eléctrica y Electrónicaspa
dc.publisher.facultyFacultad de Ingenieríaspa
dc.publisher.placeBogotá, Colombiaspa
dc.publisher.programBogotá - Ingeniería - Maestría en Ingeniería - Automatización Industrialspa
dc.relation.indexedRedColspa
dc.relation.indexedLaReferenciaspa
dc.relation.referencesConsejo Colombiano de Seguridad CCS Cómo le fue a Colombia en accidentalidad, enfermedad y muerte laboral en 2018. Consultado el 30/10/2020(https://ccs.org.co/como-le-fue-a-colombia-en-accidentalidad-enfermedad-y-muerte-laboral-en-2018/)spa
dc.relation.referencesInjury Prevention and Environmental Health: Key Messages from Disease Control Priorities, Third Edition Charles N. Mock, Rachel Nugent Chapter 3. DOI: 10.1596/978-1-4648-0522-6_ch3spa
dc.relation.referencesOHSA EEUU - Top 10 Most Frequently Cited Standards for Fiscal Year 2019 (oct. 1, 2018, to Sept. 30, 2019) consultado el 1/11/2020 (https://www.osha.gov/top10citedstandards)spa
dc.relation.referencesArrieta, E., Vélez, M., Sepúlveda, C. y Arango, D. (2019). Tercer informe de seguimiento sobre salud y estabilidad en el empleo. ANDI. Obtenido de http://www.andi.com.co/Uploads/Tercer%20informe%20de%20seguimiento%20sobre%20salud%20y%20estabilidad%20en%20el%20empleo%20CESLA%20ANDI.pdfspa
dc.relation.referencesRevista Dinero 2018 – Accidentes laborales: los errores que ninguna empresa debe cometer. Consultado el 10/11/2020 (https://www.dinero.com/empresas/articulo/reduciendo-los-riesgos-laborales-en-las-empresas-colombianas/259703)spa
dc.relation.referencesCámara de Comercio de Bogotá – Eventos de formación Empresarial – Diplomado en gestion de riesgos. Consultado el 08/10/2020. (https://www.ccb.org.co/Eventos-y-capacitaciones/Nuestros-eventos/Formacion-Empresarial/Diplomados-virtuales/Gestion-de-riesgos)spa
dc.relation.referencesS. Yoshida, N. Taniguchi, S. Moriyama, S. Uehara, H. Tanaka, T. Kijima, M. Yokoyama, J. Ishioka, Y. Matsuoka, K. Saito, Y. Fujii, PT196 - Application of virtual reality in patient education about MRI-ultrasound fusion prostate biopsy, https://doi.org/10.1016/S2666-1683(20)33934spa
dc.relation.referencesElby Roy, Mahmoud M. Bakr, Roy George, The need for virtual reality simulators in dental education: A review,. https://doi.org/10.1016/j.sdentj.2017.02.001.spa
dc.relation.referencesLiang, Zhipeng, Zhou, Keping, Gao, Kaixin, Development of Virtual Reality Serious Game for Underground Rock-Related Hazards Safety Training. https://doi.org/10.1109/ACCESS.2019.2934990spa
dc.relation.referencesRiva, Giuseppe, Wiederhold, Brenda K.,Mantovani, Fabrizia, Neuroscience of Virtual Reality: From Virtual Exposure to Embodied Medicine. https://doi.org/10.1089/cyber.2017.29099.grispa
dc.relation.referencesFederación de Aseguradores Colombianos FASECOLDA https://sistemas.fasecolda.com/rldatos/Reportes/xClaseGrupoActividad.aspx. Consultadospa
dc.relation.referencesVRSENSE Safety Hazards – General Production consultado el 15/10/2020. https://www.vrsense.com/en/index.php/product/vrsense-safety-hazards-general-production/spa
dc.relation.referencesTraining to Craning in 60 Minutes: Putting My VR-learned Skills to the Test with a Real 22 Ton Crane. Consultado el 09/11/2021. https://www.roadtovr.com/iti-vr-crane-training-simulator-test/spa
dc.relation.referencesFundamental Surgery brings affordable VR training to surgeons. Consultado el 09/11/2020. https://healthiar.com/fundamental-surgery-brings-affordable-vr-training-to-surgeonsspa
dc.relation.referencesC. Anthes, Christoph, García-Hernández, Rubén Jesús, Wiedemann, Markus, Kranzlmüller, Dieter. State of the art of virtual reality technology. DOI 10.1109/AERO.2016.7500674spa
dc.relation.referencesSacks, R., Perlman, A., & Barak, R. (2013). Construction safety training using immersive virtual reality. Construction Management and Economics, 31(9), 1005–1017spa
dc.relation.referencesRiaño. C, M. (2017). Economía de la salud y seguridad en el trabajo: un análisis de costos y beneficios desde las perspectivas del asegurador y de la empresa. Ciencia & Trabajo.spa
dc.relation.referencesDávideková, M., Mjartan, M., & Greguš, M. (2017). Utilization of Virtual Reality in Education of Employees in Slovakia. Procedia Computer Science, 113, 253–260. https://doi.org/10.1016/j.procs.2017.08.365spa
dc.relation.referencesWANG, D., GUO, Y., LIU, S., ZHANG, Y., XU, W., & XIAO, J. (2019). Haptic display for virtual reality: progress and challenges. Virtual Reality & Intelligent Hardware, 1(2), 136–162. https://doi.org/10.3724/sp.j.2096-5796.2019.0008.spa
dc.relation.referencesChait, J. D., Carmichael, D. J., Bandovic, I., Vasilyev, A., & Saggio, G. P. (2019). Development of an interactive virtual reality hepatobiliary system for preclinical medical education. Hpb, 21, S155. https://doi.org/10.1016/j.hpb.2019.03.277spa
dc.relation.referencesPaper, W. (2019). Guidelines for Developing VR and AR Based Education and Trainingspa
dc.relation.referencesDiego-Mas, J. A., Alcaide-Marzal, J., & Poveda-Bautista, R. (2020). Effects of using immersive media on the effectiveness of training to prevent ergonomics risks. International Journal of Environmental Research and Public Health, 17(7). https://doi.org/10.3390/ijerph17072592spa
dc.relation.referencesOsti, F., de Amicis, R., Sanchez, C. A., Tilt, A. B., Prather, E., & Liverani, A. (2020). A VR training system for learning and skills development for construction workers. Virtual Reality, 0123456789. https://doi.org/10.1007/s10055-020-00470-6spa
dc.relation.referencesKe, F., Pachman, M., & Dai, Z. (2020). Investigating educational affordances of virtual reality for simulation-based teaching training with graduate teaching assistants. Journal of Computing in Higher Education, 32(3), 607–627. https://doi.org/10.1007/s12528-020-09249-9spa
dc.relation.referencesMedellin-Castillo, H. I., Zaragoza-Siqueiros, J., Govea-Valladares, E. H., de la Garza-Camargo, H., Lim, T., & Ritchie, J. M. (2020). Haptic-enabled virtual training in orthognathic surgery. Virtual Reality, 0123456789. https://doi.org/10.1007/s10055-020-00438-6spa
dc.relation.referencesMäkinen, H., Haavisto, E., Havola, S., & Koivisto, J. M. (2020). User experiences of virtual reality technologies for healthcare in learning: an integrative review. Behaviour and Information Technology, 1–17. https://doi.org/10.1080/0144929X.2020.1788162spa
dc.relation.referencesRadianti, J., Majchrzak, T. A., Fromm, J., & Wohlgenannt, I. (2020). A systematic review of immersive virtual reality applications for higher education: Design elements, lessons learned, and research agenda. Computers and Education, 147(December 2019). https://doi.org/10.1016/j.compedu.2019.103778spa
dc.relation.referencesLiang, Z., Zhou, K., & Gao, K. (2019). Development of Virtual Reality Serious Game for Underground Rock-Related Hazards Safety Training. IEEE Access, 7, 118639–118649. https://doi.org/10.1109/access.2019.2934990spa
dc.relation.referencesMendez, K. J. W., Piasecki, R. J., Hudson, K., Renda, S., Mollenkopf, N., Nettles, B. S., & Han, H. R. (2020). Virtual and augmented reality: Implications for the future of nursing education. Nurse Education Today, 93(December 2019), 2019–2021. https://doi.org/10.1016/j.nedt.2020.104531spa
dc.relation.referencesO’Connor, M., Stowe, J., Potocnik, J., Giannotti, N., Murphy, S., & Rainford, L. (2020). 3D virtual reality simulation in radiography education: The students’ experience. Radiography.spa
dc.relation.referencesJiménez S. Evaluación financiera del sistema de seguridad y salud ocupacional en la empresa privada y su impacto económico – social. Actualidad Contable Faces, vol. 20, núm. 34, 2017 Universidad de los Andes.spa
dc.relation.referencesAl-Sada, M., Jiang, K., Ranade, S., Kalkattawi, M., & Nakajima, T. (2020). HapticSnakes: multi-haptic feedback wearable robots for immersive virtual reality. Virtual Realityspa
dc.relation.referencesSisto, Maria & Zare, Mohsen & Ouerhani, Nabil & Bolinhas, Christophe & Divernois, Margaux & Mignot, Bernard & Sagot, Jean-Claude & Gobron, Stéphane. (2018). Virtual Reality Serious Game for Musculoskeletal Disorder Prevention: 5th International Conference, AVR 2018, Otranto, Italy, June 24–27, 2018, Proceedings, Part II. 10.1007/978-3-319-95282-6_4.spa
dc.relation.referencesEscobar, Ivón & Gálvez, Catherine & Corrales, Gabriel & Pruna, Edwin & Pilatasig, Marco & Montaluisa, Javier. (2018). Virtual System Using Haptic Device for Real-Time Tele-Rehabilitation of Upper Limbs: 5th International Conference, AVR 2018, Otranto, Italy, June 24–27, 2018, Proceedings, Part II. 10.1007/978-3-319-95282-6_10spa
dc.relation.referencesLeón, Alejandro & Romero, Paul & Quevedo, Washington & Arteaga, Oscar & Terán, Cochise & Benalcázar, Marco & Andaluz, Víctor. (2018). Virtual Rehabilitation System for Fine Motor Skills Using a Functional Hand Orthosis: 5th International Conference, AVR 2018, Otranto, Italy, June 24–27, 2018, Proceedings, Part II. 10.1007/978-3-319-95282-6_6.spa
dc.relation.referencesTamayo, Mauricio & Salazar, Pablo & Bustamante, Denys & Silva, S. & Escudero, V. & Andaluz, Víctor. (2018). Virtual Rehabilitation of Carpal Tunnel Syndrome Through Force Feedback: 5th International Conference, AVR 2018, Otranto, Italy, June 24–27, 2018, Proceedings, Part II. 10.1007/978-3-319-95282-6_11.spa
dc.relation.referencesChen, Ao & Golparvar-Fard, Mani & Kleiner, Brian. (2013). Design and Development of SAVES: A Construction Safety Training Augmented Virtuality Environment for Hazard Recognition and Severity Identification. Computing in Civil Engineering - Proceedings of the 2013 ASCE International Workshop on Computing in Civil Engineering. 841-848. 10.1061/9780784413029.105.spa
dc.relation.referencesIvanova, N., Gugleva, V., Dobreva, M., Pehlivanov, I., Stefanov, S., & Andonova, V. (2016). Proprioception in Immersive Virtual Reality. Intech, i(tourism), 13spa
dc.relation.referencesLaura, M. R. (2021). Desarrollo de una herramienta de software para la integración de sensores hápticos a interfaces de realidad aumentada orientadas al entrenamiento industrial. Universidad Nacional de Colombiaspa
dc.relation.referencesHalicka, K. (2020). Technology selection using the TOPSIS method. Foresight and STI Governance, 14(1), 85–96. https://doi.org/10.17323/2500-2597.2020.1.85.96spa
dc.relation.referencesRybicka, J., Tiwari, A., & Leeke, G. A. (2016). Technology readiness level assessment of composites recycling technologies. Journal of Cleaner Production, 112, 1001–1012.spa
dc.relation.referencesBergerson, J. A., Brandt, A., Cresko, J., Carbajales-Dale, M., MacLean, H. L., Matthews, H. S., McCoy, S., McManus, M., Miller, S. A., Morrow, W. R., Posen, I. D., Seager, T., Skone, T., & Sleep, S. (2020). Life cycle assessment of emerging technologies: Evaluation techniques at different stages of market and technical maturity. Journal of Industrial Ecology, 24(1), 11–25. https://doi.org/10.1111/jiec.12954spa
dc.relation.referencesLee, P. C., & Su, H. N. (2015). How to analyze technology life cycle from the perspective of patent characteristics? Portland International Conference on Management of Engineering and Technology, 2015-September, 2079–2083. https://doi.org/10.1109/PICMET.2015.7273161spa
dc.relation.referencesKaptur, V., & Mammadov, E. (2015). Methodology of selecting appropriate technologies for constructing telecommunication access networks. 2015 2nd International Scientific-Practical Conference Problems of Infocommunications Science and Technology, PIC S and T 2015 - Conference Proceedings, 90–92. https://doi.org/10.1109/INFOCOMMST.2015.7357278spa
dc.relation.referencesMayor, J. (2015). Propuesta de un modelo de decisión multicriterio para la adjudicación de contratos de proyectos de infraestructura de iniciativa pública en Colombia. 99. http://www.bdigital.unal.edu.co/50915/spa
dc.relation.referencesRoy, B., & Słowiński, R. (2013). Questions guiding the choice of a multicriteria decision aiding method. EURO Journal on Decision Processes, 1(1–2), 69–97. https://doi.org/10.1007/s40070-013-0004-7spa
dc.relation.referencesHyun K. Kim, Jaehyun Park, Yeongcheol Choi, Mungyeong Choe, Virtual reality sickness questionnaire (VRSQ): Motion sickness measurement index in a virtual reality environment, Applied Ergonomics,Volume 69,2018, Pages 66-73,ISSN 0003-6870,https://doi.org/10.1016/j.apergo.2017.12.016.spa
dc.relation.referencesMengli Yu, Ronggang Zhou, Huiwen Wang, Weihua Zhao,An evaluation for VR glasses system user experience: The influence factors of interactive operation and motion sickness,Applied Ergonomics,Volume 74,2019,Pages 206-213,ISSN 0003-6870,https://doi.org/10.1016/j.apergo.2018.08.012.spa
dc.relation.referencesOlechowski, A., Eppinger, S. D., & Joglekar, N. (2015). Technology readiness levels at 40: A study of state-of-the-art use, challenges, and opportunities. Portland International Conference on Management of Engineering and Technology, 2015-Septe, 2084–2094.spa
dc.relation.referencesZakharov, Alexander & Kolsanov, Alexander & Khivintseva, Elena & Pyatin, Vasiliy & Yashkov, Alexander. (2021). Proprioception in Immersive Virtual Reality.spa
dc.relation.referencesVRSENSE Safety Hazards – General Production consultado el 15/10/2020. https://www.vrsense.com/en/index.php/product/vrsense-safety-hazards-general-production/spa
dc.relation.referencesTESLASUIT – Humans Performance in VR. Consultado el 09/11/2020. https://teslasuit.io/blog/teslasuit-with-collaboration-partners-presents-various-vr-training-demo-for-different-industries/spa
dc.relation.referencesIndustrial 3D Visualization Platform – Solutions for Enterprises. Consultado el 09/11/2020. https://visard.com/#solutionsspa
dc.relation.referencesTraining to Craning in 60 Minutes: Putting My VR-learned Skills to the Test with a Real 22 Ton Crane. Consultado el 09/11/2021. https://www.roadtovr.com/iti-vr-crane-training-simulator-test/spa
dc.relation.referencesFundamental Surgery brings affordable VR training to surgeons. Consultado el 09/11/2020. https://healthiar.com/fundamental-surgery-brings-affordable-vr-training-to-surgeonsspa
dc.relation.referencesVirtual Reality First Aid. Consultado el 09/11/2021 https://firstaidvr.com.au/spa
dc.relation.referencesVisor Oculus Quest. Consultado el 11/11/2021. https://www.Oculus.com/quest-2/spa
dc.relation.referencesVR Haptic Experience Consultado el 11/11/2021 https://www.bhaptics.com/spa
dc.relation.referencesYour Hand, your Controller https://www.captoglove.com/ Consultado el 11/11/2020spa
dc.relation.referencesDispositivo de interacción háptica http://www.korfx.com/es/. Consultado el 27/10/2021.spa
dc.relation.referenceshttps://www.kickstarter.com/projects/morgansinko/hardlight-vr-suit-dont-just-play-the-game-feel-it?lang=es. Consultado el 27/10/2021.spa
dc.relation.referencesMotor de desarrollo para aplicaciones digitales. https://www.playstation.com/es-co/explore/playstation-vr/tech-specs/. Consultado el 27/10/2021spa
dc.relation.referencesMotor de desarrollo para aplicaciones digitales. https://www.unrealengine.com/en-US/ Consultado el 27/10/2021spa
dc.rights.accessrightsinfo:eu-repo/semantics/openAccessspa
dc.rights.licenseAtribución-NoComercial-CompartirIgual 4.0 Internacionalspa
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/4.0/spa
dc.subject.armarcAccidentesspa
dc.subject.ddc000 - Ciencias de la computación, información y obras generalesspa
dc.subject.lembProgramas del sistemaspa
dc.subject.lembSystems softwareeng
dc.subject.lembAccidentseng
dc.subject.proposalRealidad Virtualspa
dc.subject.proposalRiesgos laboralesspa
dc.subject.proposalDispositivos hápticosspa
dc.subject.proposalSeguimiento de manosspa
dc.subject.proposalSensación inmersivaspa
dc.subject.proposalEntrenamientospa
dc.subject.proposalVirtual realityeng
dc.subject.proposalHaptic deviceseng
dc.subject.proposalOccupational hazardseng
dc.subject.proposalHand trackingeng
dc.subject.proposalImmersive feelingeng
dc.titleDesarrollo de un entorno virtual de entrenamiento con interacción háptica para la prevención y gestión del riesgo laboralspa
dc.title.translatedDevelopment of a virtual training environment with haptic interaction for the prevention and management of occupational riskeng
dc.typeTrabajo de grado - Maestríaspa
dc.type.coarhttp://purl.org/coar/resource_type/c_bdccspa
dc.type.coarversionhttp://purl.org/coar/version/c_ab4af688f83e57aaspa
dc.type.contentImagespa
dc.type.contentTextspa
dc.type.driverinfo:eu-repo/semantics/masterThesisspa
dc.type.redcolhttp://purl.org/redcol/resource_type/TMspa
dc.type.versioninfo:eu-repo/semantics/acceptedVersionspa
dcterms.audience.professionaldevelopmentAdministradoresspa
dcterms.audience.professionaldevelopmentEstudiantesspa
dcterms.audience.professionaldevelopmentInvestigadoresspa
oaire.accessrightshttp://purl.org/coar/access_right/c_abf2spa

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