Alcances y limitaciones del uso de recursos educativos abiertos (REA) como factor de desarrollo de competencias TIC en los docentes del programa de enfermería de la Universidad Simón Bolívar de Barranquilla

Tovío Tovío, Carmen Luisa

dc.contributor.advisor	Arias Vallejo, Vivian Miyerly
dc.contributor.author	Tovío Tovío, Carmen Luisa
dc.date.accessioned	2018-05-31T15:05:13Z
dc.date.available	2018-05-31T15:05:13Z
dc.date.issued	2017
dc.identifier.citation	Agencia Nacional de Hidrocarburos. (2017). Estadísticas de Producción. Recuperado Julio 7, 2017, de http://www.anh.gov.co/Operaciones-Regalias-y-Participaciones/Sistema-Integrado-deOperaciones/Paginas/Estadisticas-de-Produccion.aspx
dc.identifier.citation	Agencia Nacional de Hidrocarburos - Colombia. (2016). Shape de pozos 2015 Agencia Nacional de Hidrocarburos - Colombia. Recuperado de http://www.anh.gov.co/Paginas/inicio/defaultANH.aspx
dc.identifier.citation	Ahmadi, A., & Seddighi, A. H. (2013). A location-routing problem with disruption risk. Transportation Research Part E: Logistics and Transportation Review, 53(1), 63–82.
dc.identifier.citation	Al-Mudhafar, W. J., Al-Jawad, M. S., & Al-Shamma, D. A. (2010). Using optimization techniques for determining optimal locations of additional oil wells in South Rumaila oil field. Society of Petroleum Engineers - International Oil and Gas Conference and Exhibition in China 2010, IOGCEC, 1(SPE 130054), 159–178.
dc.identifier.citation	Alexander, B., & Sergey, S. (2014). A Metaheuristic Approach for the Problem of Motor Fuel Distribution. Procedia Computer Science, 31(Itqm), 143–150.
dc.identifier.citation	Aliabadi, A., & Shamekhi, A. (2012). Recent Developments in Gas Flaring and Venting Reduction. In SPE 152024.
dc.identifier.citation	Alumur, S., & Kara, B. Y. (2007). A new model for the hazardous waste location-routing problem. Computers and Operations Research, 34(5), 1406–1423
dc.identifier.citation	Ambrosino, D., Sciomachen, A., & Scutellà, M. G. (2009). A heuristic based on multi-exchange techniques for a regional fleet assignment location-routing problem. Computers and Operations Research, 36(2), 442–460
dc.identifier.citation	Anghinolfi, D., Paolucci, M., & Tonelli, F. (2016). A Vehicle Routing Problem with Time Windows Approach for Planning Service Operations in Gas Distribution Network of a Metropolitan Area. IFAC-PapersOnLine, 49(12), 1365–1370.
dc.identifier.citation	Barrero, D., Pardo, A., Vargas, C. a., & Martínez, J. F. (2007). Colombian Sedimentary Basins: Nomenclature, boundaries and Petroleum Geology, a New Proposal. Agencia Nacional de Hidrocarburos - A.N.H.-. Agencia Nacional de Hidrocarburos. https://doi.org/ISBN: 978-958- 98237-0-5
dc.identifier.citation	Barreto, S., Ferreira, C., Paixão, J., & Santos, B. S. (2007). Using clustering analysis in a capacitated location-routing problem. European Journal of Operational Research, 179(3), 968–977. https://doi.org/10.1016/j.ejor.2005.06.074
dc.identifier.citation	Biobaku, T., Lim, G., Cho, J., Parsaei, H., & Kim, S. (2015). Liquefied Natural Gas Ship Route Planning: A Risk Analysis Approach. Procedia Manufacturing, 3, 1319–1326
dc.identifier.citation	Blanquero, R., Carrizosa, E., Boglárka, G., & Nogales-gómez, A. (2016). p -facility Huff location problem on networks. European Journal of Operational Research, 255(1), 34–42
dc.identifier.citation	Bozorgi-Amiri, A., & Khorsi, M. (2016). A dynamic multi-objective location-routing model for relief logistic planning under uncertainty on demand, travel time, and cost parameters. International Journal of Advanced Manufacturing Technology, 85(5–8), 1633–1648.
dc.identifier.citation	Caballero, R., González, M., Guerrero, F. M., Molina, J., & Paralera, C. (2007). Solving a multiobjective location routing problem with a metaheuristic based on tabu search. Application to a real case in Andalusia. European Journal of Operational Research, 177(3), 1751–1763.
dc.identifier.citation	Chbichib, A., Mellouli, R., & Chabchoub, H. (2012). Profitable Vehicle Routing Problem with Multiple Trips: Modeling and Variable Neighborhood Descent Algorithm. American Journal of Operational Research, 2(6), 104–119.
dc.identifier.citation	Coelho, V. N., Grasas, A., Ramalhinho, H., Coelho, I. M., Souza, M. J. F., & Cruz, R. C. (2016). An ILS-based algorithm to solve a large-scale real heterogeneous fleet VRP with multi-trips and docking constraints. European Journal of Operational Research, 250(2), 367–376.
dc.identifier.citation	Coutinho-Rodrigues, J., Tralhão, L., & Alçada-Almeida, L. (2012). Solving a location-routing problem with a multiobjective approach: The design of urban evacuation plans. Journal of Transport Geography, 22, 206–218.
dc.identifier.citation	de Camargo, R. S., de Miranda, G., & Løkketangen, A. (2013). A new formulation and an exact approach for the many-to-many hub location-routing problem. Applied Mathematical Modelling, 37(12–13), 7465–7480.
dc.identifier.citation	Drexl, M., & Schneider, M. (2015). A survey of variants and extensions of the location-routing problem. European Journal of Operational Research, 241(2), 283–308
dc.identifier.citation	Elvidge, C. D., Baugh, K. E., Tuttle, B. T., Howard, A. T., Pack, D. W., Milesi, C., & Erwin, E. H. (2007). A twelve year record of national and global gas flaring volumes estimated using satellite data. Recuperado de http://siteresources.worldbank.org/INTGGFR/Resources/DMSP_flares_20070530_b-sm.pdf
dc.identifier.citation	Emam, E. A. (2015). Gas Flaring in Industry: an Overview. Petroleum & Coal, 57(5), 532–555.
dc.identifier.citation	Energy Information Administration. (2017). U.S. No 2 Diesel Retail Prices. Recuperado Julio 26, 2017, de https://www.eia.gov/dnav/pet/hist/LeafHandler.ashx?n=PET&s=EMD_EPD2D_PTE_NUS_D PG&f=W
dc.identifier.citation	Escobar, J. W., Linfati, R., Baldoquin, M. G., & Toth, P. (2014). A Granular Variable Tabu Neighborhood Search for the capacitated location-routing problem. Transportation Research Part B: Methodological, 67, 344–356.
dc.identifier.citation	Fazel Zarandi, M. H., Hemmati, A., Davari, S., & Burhan Turksen, I. (2013). Capacitated locationrouting problem with time windows under uncertainty. Knowledge-Based Systems, 37, 480– 489.
dc.identifier.citation	Fernandez Cuesta, E., Andersson, H., Fagerholt, K., & Laporte, G. (2017). Vessel routing with pickups and deliveries: An application to the supply of offshore oil platforms. Computers and Operations Research, 79(March 2016), 140–147.
dc.identifier.citation	Fiorot, H., Alvarenga, R. De, & Rosa, A. L. da S. (2016). Planning The Diesel Supply For Offshore Platforms By A Mathematical Model Based On The Vehicle Routing Problem With Replenishment. Transportation Research Procedia, 18(June), 11–18.
dc.identifier.citation	Gao, J., He, C., & You, F. (2017). Shale Gas Process and Supply Chain Optimization. In Advances in Energy Systems Engineering (Vol. 1, pp. 21–46).
dc.identifier.citation	Gao, S., Wang, Y., Cheng, J., Inazumi, Y., & Tang, Z. (2016). Ant colony optimization with clustering for solving the dynamic location routing problem. Applied Mathematics and Computation, 285, 149–173.
dc.identifier.citation	Guerrero, W. J., Prodhon, C., Velasco, N., & Amaya, C. A. (2013). Hybrid heuristic for the inventory location-routing problem with deterministic demand. International Journal of Production Economics, 146(1), 359–370
dc.identifier.citation	Hanczar, P. (2012). A Fuel Distribution Problem – Application of New Multi-item Inventory Routing Formulation. Procedia - Social and Behavioral Sciences, 54, 726–735.
dc.identifier.citation	Hashemi Doulabi, S. H., & Seifi, A. (2013). Lower and upper bounds for location-arc routing problems with vehicle capacity constraints. European Journal of Operational Research, 224(1), 189–208.
dc.identifier.citation	He, Z., Khatu, G., Tenenbaum, E., Li, W., & Han, Z. (2016). Flared Gas Monetization with Modular Gas-to-Liquid Units : Oilfield Conversion of Associated Gas into Petrol at SmallScales. In Abu Dhabi International Petroleum Exhibition & Conference SPE-183510-MS.
dc.identifier.citation	Hernandez, F., Feillet, D., Giroudeau, R., & Naud, O. (2016). Branch-and-price algorithms for the solution of the multi-trip vehicle routing problem with time windows. European Journal of Operational Research, 249(2), 551–559.
dc.identifier.citation	Karaoglan, I., & Altiparmak, F. (2015). A memetic algorithm for the capacitated location-routing problem with mixed backhauls. Computers and Operations Research, 55, 200–216.
dc.identifier.citation	Karaoglan, I., Altiparmak, F., Kara, I., & Dengiz, B. (2011). A branch and cut algorithm for the location-routing problem with simultaneous pickup and delivery. European Journal of Operational Research, 211(2), 318–332.
dc.identifier.citation	Karaoglan, I., Altiparmak, F., Kara, I., & Dengiz, B. (2012). The location-routing problem with simultaneous pickup and delivery: Formulations and a heuristic approach. Omega, 40(4), 465– 477
dc.identifier.citation	Koc, Ç. (2016). A unified-adaptive large neighborhood search metaheuristic for periodic locationrouting problems. Transportation Research Part C: Emerging Technologies, 68, 265–284.
dc.identifier.citation	Kovacs, A. A., Parragh, S. N., & Hartl, R. F. (2015). The multi-objective generalized consistent vehicle routing problem. European Journal of Operational Research, 247(2), 441–458.
dc.identifier.citation	Li, J., Chu, F., & Prins, C. (2009). Lower and upper bounds for a capacitated plant location problem with multicommodity flow. Computers & Operations Research, 36, 3019-- 3030
dc.identifier.citation	Li, Y., Hu, G., & Wright, M. M. (2015). An optimization model for sequential fast pyrolysis facility location-allocation under renewable fuel standard. Energy, 93, 1165–1172
dc.identifier.citation	Linfati, R., Escobar, J. W., & Gatica, G. (2014). A Metaheuristic Algorithm for the Location Routing Problem with Heterogeneous Fleet. Ingeniería y Ciencia, 10(19), 55–76
dc.identifier.citation	Lopes, R. B., Ferreira, C., Santos, B. S., & Barreto, S. (2013). A taxonomical analysis, current methods and objectives on location-routing problems. International Transactions in Operational Research, 20(6), 795–822.
dc.identifier.citation	Lopes, R. B., Plastria, F., Ferreira, C., & Santos, B. S. (2014). Location-arc routing problem: Heuristic approaches and test instances. Computers and Operations Research, 43, 309–317
dc.identifier.citation	López, E., Akhavani, R., Dieulle, L., Labadie, N., & Medaglia, A. L. (2016). On the combined maintenance and routing optimization problem. Reliability Engineering and System Safety, 145, 199–214.
dc.identifier.citation	Marín, A., Nickel, S., Puerto, J., & Velten, S. (2009). A flexible model and efficient solution strategies for discrete location problems. Discrete Applied Mathematics, 157(157), 1128– 1145.
dc.identifier.citation	Markov, I., Varone, S., & Bierlaire, M. (2016). Integrating a heterogeneous fixed fleet and a flexible assignment of destination depots in the waste collection VRP with intermediate facilities. Transportation Research Part B: Methodological, 84, 256–273.
dc.identifier.citation	Martínez, I. A., Molina, J., Ángel, F., Gómez, T., & Caballero, R. (2014). Solving a bi-objective Transportation Location Routing Problem by metaheuristic algorithms. European Journal of Operational Research, 234, 25–36
dc.identifier.citation	Motherwell, J., & Weinbel, C. (2014). Facility siting and routing with a focus on sustainability. In SPE International Conference on Health, Safety and Environment 2014: The Journey Continues SPE 168534 Facility. Recuperado de http://www.scopus.com/inward/record.url?eid=2-s2.0- 84905860521&partnerID=40&md5=247a7320ef56ac02265bc4cb3261d9b7
dc.identifier.citation	Mousavi, S. M., & Tavakkoli-Moghaddam, R. (2013). A hybrid simulated annealing algorithm for location and routing scheduling problems with cross-docking in the supply chain. Journal of Manufacturing Systems, 32(2), 335–347.
dc.identifier.citation	Ocampo, E. M. T., Castaño, A. H. D., & Zuluaga, A. H. E. (2016). Desempeño de las técnicas de agrupamiento para resolver el problema de ruteo con múltiples depósitos. Tecno Lógicas, 19(36), 49–62.
dc.identifier.citation	Pérez, C. E. T., & Flores, J. L. M. (n.d.). Revisión y programación de modelos de optimización como una plataforma en GAMS-CPLEX para problemas de ruteo de vehículos
dc.identifier.citation	PFC Energy. (2007). Using Russia’s Associated Gas: Prepared for the Global Gas Flaring Reduction Partnership and the World Bank.
dc.identifier.citation	Prodhon, C. (2011). A hybrid evolutionary algorithm for the periodic location-routing problem. European Journal of Operational Research, 210(2), 204–212.
dc.identifier.citation	Prodhon, C., & Prins, C. (2014). A survey of recent research on location-routing problems. European Journal of Operational Research, 238(1), 1–17
dc.identifier.citation	Qian, J., & Eglese, R. (2016). Fuel emissions optimization in vehicle routing problems with timevarying speeds. European Journal of Operational Research, 248(3), 840–848.
dc.identifier.citation	Rajović, V., Kiss, F., Maravić, N., & Bera, O. (2016). Environmental flows and life cycle assessment of associated petroleum gas utilization via combined heat and power plants and heat boilers at oil fields. Energy Conversion and Management, 118, 96–104
dc.identifier.citation	Rakke, J. G., Stålhane, M., Moe, C. R., Christiansen, M., Andersson, H., Fagerholt, K., & Norstad, I. (2011). A rolling horizon heuristic for creating a liquefied natural gas annual delivery program. Transportation Research Part C: Emerging Technologies, 19(5), 896–911.
dc.identifier.citation	Ramírez, E. Á., Torres, J. R. M., & Muñoz, A. F. (2016). MODELO DE RUTEO PARA LA RECOLECCIÓN DE MUESTRA DE FLUIDO DE POZO EN CAMPO QUIFA – META COLOMBIA
dc.identifier.citation	Razali, N. M. (2015). An Efficient Genetic Algorithm for Large Scale Vehicle Routing Problem Subject to Precedence Constraints. Procedia - Social and Behavioral Sciences, 195, 1922– 1931.
dc.identifier.citation	Rieck, J., Ehrenberg, C., & Zimmermann, J. (2014). Many-to-many location-routing with inter-hub transport and multi-commodity pickup-and-delivery. European Journal of Operational Research, 236(3), 863–878.
dc.identifier.citation	Riquelme, J. P., Gamache, M., & Langevin, A. (2016). Location arc routing problem with inventory constraints. Computers and Operations Research, 76, 84–94.
dc.identifier.citation	Rocha, R., Grossmann, I. E., & Poggi de Aragão, M. V. S. (2009). Petroleum allocation at PETROBRAS: Mathematical model and a solution algorithm. Computers and Chemical Engineering, 33(12), 2123–2133.
dc.identifier.citation	Rodina, A. (2016). Burning through : reducing associated petroleum gas flaring to enhance natural. Law In Transition Journal, 83–91.
dc.identifier.citation	Rodríguez-Martín, I., Salazar-González, J. J., & Yaman, H. (2014). A branch-and-cut algorithm for the hub location and routing problem. Computers and Operations Research, 50, 161–174.
dc.identifier.citation	Rosa, R. de A., Machado, A. M., Ribeiro, G. M., & Mauri, G. R. (2016). A mathematical model and a Clustering Search metaheuristic for planning the helicopter transportation of employees to the production platforms of oil and gas. Computers and Industrial Engineering, 101, 303–312.
dc.identifier.citation	Salhi, S., Imran, A., & Wassan, N. A. (2014). The multi-depot vehicle routing problem with heterogeneous vehicle fl eet : Formulation and a variable neighborhood search implementation. Computers and Operation Research, 52, 315–325.
dc.identifier.citation	Samanlioglu, F. (2013). A multi-objective mathematical model for the industrial hazardous waste location-routing problem. European Journal of Operational Research, 226(2), 332–340.
dc.identifier.citation	Shishebori, D., Dayarian, I., Jabbarzadeh, A., & Barzinpour, F. (2014). A new hybrid approach to discrete multiple facility location problem. The International Journal of Advanced Manufacturing Technology, 71(1–4), 127–139.
dc.identifier.citation	Siddiqui, A. W., & Verma, M. (2015). A bi-objective approach to routing and scheduling maritime transportation of crude oil. Transportation Research Part D: Transport and Environment, 37, 65–78
dc.identifier.citation	Tan, S. H., & Barton, P. I. (2015). Optimal dynamic allocation of mobile plants to monetize associated or stranded natural gas, part I: Bakken shale play case study. Energy, 93, 1581– 1594
dc.identifier.citation	The World Bank. (2015). Regional Gas Seminar. Maputo. Recuperado de http://docplayer.net/42912426-Global-initiative-combining-forces-to-end-routine-gasflaring.html
dc.identifier.citation	The World Bank. (2016). Global Gas Flaring Reduction. World Bank Group. Washington. Recuperado de http://documents.worldbank.org/curated/en/590561468765565919/pdf/295540Regulati1aring0 no10301public1.pdf
dc.identifier.citation	Ting, C. J., & Chen, C. H. (2013). A multiple ant colony optimization algorithm for the capacitated location routing problem. International Journal of Production Economics, 141(1), 34–44.
dc.identifier.citation	Tunalıoğlu, R., Koç, Ç., & Bektaş, T. (2016). A multiperiod location-routing problem arising in the collection of Olive Oil Mill Wastewater. Journal of the Operational Research Society, 67(7), 1–13.
dc.identifier.citation	Unidad de Planeación Minero Energética. (2015a). Plan energetico nacional colombia : ideario energético 2050. Bogotá. Recuperado de http://www.upme.gov.co/docs/pen/pen_idearioenergetico2050.pdf
dc.identifier.citation	Unidad de Planeación Minero Energética. (2015b). Plan Indicativo de Abastecimiento de Gas Natural. Recuperado de http://www1.upme.gov.co/sites/default/files/Plan_Indicativo_Gas_Natural_2015.pdf
dc.identifier.citation	Unidad de Planeación Minero Energética. (2016). Consulta Series de Tiempo. Recuperado March 21, 2017, de http://www.upme.gov.co/generadorconsultas/Consulta_Series.aspx?idModulo=3&tipoSerie=1 38
dc.identifier.citation	United States Energy Information Administration. (2016). Trends in US Oil and Natural Gas Upstream Costs.
dc.identifier.citation	Universidad Nacional de Colombia. Grupo de Investigación en Geofísica., J. G., Guerrero, J. G., Vargas, C. A., & Montes, L. (2010). Earth sciences research journal. Earth Sciences Research Journal (Vol. 14). Universidad Nacional de Colombia, Facultad de Ciencias, Departamento de Geociencías, Grupo de Investigación en Geofísica.
dc.identifier.citation	Venkata Narasimha, K., Kivelevitch, E., Sharma, B., & Kumar, M. (2013). An ant colony optimization technique for solving min-max Multi-Depot Vehicle Routing Problem. Swarm and Evolutionary Computation, 13, 63–73.
dc.identifier.citation	Wood, D. A. (2016). Evolutionary memetic algorithms supported by metaheuristic profiling effectively applied to the optimization of discrete routing problems. Journal of Natural Gas Science and Engineering, 35, 997–1014.
dc.identifier.citation	Yildiz, B., Arslan, O., & Karaşan, O. E. (2016). A branch and price approach for routing and refueling station location model. European Journal of Operational Research, 248(3), 815– 826.
dc.identifier.citation	You, P. S., & Hsieh, Y. C. (2012). A heuristic approach to a single stage assembly problem with transportation allocation. Applied Mathematics and Computation, 218(22), 11100–11111.
dc.identifier.citation	Yu, V. F., Lin, S. W., Lee, W., & Ting, C. J. (2010). A simulated annealing heuristic for the capacitated location routing problem. Computers and Industrial Engineering, 58(2), 288–299.
dc.identifier.citation	Zhang, J., Zhao, Y., Xue, W., & Li, J. (2015). Vehicle routing problem with fuel consumption and carbon emission. International Journal of Production Economics, 170, 234–242.
dc.identifier.citation	Zhao, J., & Verter, V. (2015). A bi-objective model for the used oil location-routing problem. Computers and Operations Research, 62, 157–168
dc.identifier.uri	http://hdl.handle.net/10818/33080
dc.description	133 Páginas	es_CO
dc.description.abstract	El presente documento, pretende dar cuenta del proceso mediante el cual se desarrolló la investigación en torno a los alcances y limitaciones del uso de Recursos Educativos Abiertos como factor de desarrollo de competencias TIC en los docentes del programa de Enfermería de la Universidad Simón Bolívar de Barranquilla. Esta investigación estuvo desarrollada bajo el diseño cualitativo, empleando la metodología de estudio de caso, además se realizó la indagación de experiencias previas e investigaciones en otros contextos con una búsqueda o rastreo bibliográfico que diera sustento sólido a la acción investigativa también desde lo referente a las teorías educativas, proponiendo intervenciones directas de diagnóstico a través del instrumento emanado desde el Ministerio de Educación Nacional (MEN, 2013) proporcionado en el documento “Competencias TIC para el desarrollo profesional docente”, el cual permitió la valoración inicial y final acerca de los momentos y los niveles de competencias TIC en los docentes del programa de enfermería.	es_CO
dc.format	application/pdf	es_CO
dc.language.iso	spa	es_CO
dc.publisher	Universidad de La Sabana	es_CO
dc.rights	Attribution-NonCommercial-NoDerivatives 4.0 International	*
dc.rights.uri	http://creativecommons.org/licenses/by-nc-nd/4.0/	*
dc.subject	Localización	es_CO
dc.subject	Ruteo de vehículos
dc.subject	Industria petrolera
dc.subject	Gas asociado al petróleo
dc.title	Alcances y limitaciones del uso de recursos educativos abiertos (REA) como factor de desarrollo de competencias TIC en los docentes del programa de enfermería de la Universidad Simón Bolívar de Barranquilla	es_CO
dc.type	masterThesis	es_CO
dc.publisher.program	Maestría en Proyectos Educativos mediados por TIC	es_CO
dc.publisher.department	Centro de Tecnologías para la Academia	es_CO
dc.type.hasVersion	publishedVersion	es_CO
dc.rights.accessRights	acceso restringido	es_CO
dc.creator.degree	Magíster en Proyectos Educativos mediados por TIC	es_CO
dc.riesgos	SI