Show simple item record

dc.contributor.advisorFlórez Gómez, Leidy Yohanaspa
dc.contributor.advisorEspinosa Carreño, María Alexandraspa
dc.contributor.authorAceros Orduz, Daniel Fabiánspa
dc.coverage.spatialColombiaspa
dc.date.accessioned2020-11-12T18:32:15Z
dc.date.available2020-11-12T18:32:15Z
dc.date.issued2020
dc.identifier.urihttp://hdl.handle.net/20.500.12749/11709
dc.description.abstractEste proyecto desarrolla una estrategia tecnificada para establecer mapas de rutas tecnológicas empleando minería de texto e inteligencia artificial para la agricultura en Colombia, buscando otra alternativa correcta y planeada para los sistemas de riego actuales y la tecnología que por el momento está en ejecución para la solución a dicha problemática. Teniendo en cuenta el problema que tiene el sector agropecuario colombiano obtenemos que el conflicto social y armado tiene fundamentos de la pésima situación del agro. Este trabajo de grado intenta aportar a la construcción un prototipo de una ruta tecnológica y dar una solución a la problemática, el cual se hace necesaria para tecnificar el agro de forma correcta.spa
dc.description.tableofcontents1. Introducción .............................................................................................................. 5 2. Planteamiento del Problema ..................................................................................... 7 3. Justificación Del Problema ....................................................................................... 9 4. OBJETIVOS ........................................................................................................... 11 4.1 Objetivo General .............................................................................................. 11 4.2 Objetivos Específicos ....................................................................................... 11 5. Antecedentes .......................................................................................................... 12 5.1 IoT (INTERNET OF THINGS) .......................................................................... 12 6. Revisión De La Literatura ....................................................................................... 15 6.1 Ejecución del protocolo para la revisión sistemática de literatura .................... 15 6.1.1 Resultado base de datos para búsqueda en español. ............................... 16 6.1.2 Resultado de ejecución RSL DANDELION en inglés. ............................... 21 6.2 Route Map of Privacy Preservation to IoT: ....................................................... 25 6.3 Sensor based Automated Irrigation System with IOT: A Technical Review: .... 25 6.4 Smart Irrigation System Using Machine Learning and IOT: ............................. 26 6.5 Fundamentals of Technology Roadmapping: ................................................... 26 6.6 Sistema de Riego Basado En La Internet De Las Cosas (IoT): ....................... 27 6.7 Monitoring and irrigation of an urban garden using IoT: ................................... 27 6.8 Water usage approximation of Automated Irrigation System using IOT and ANN’s: ........................................................................................................................ 28 6.9 Mobile Integrated Smart Irrigation Management and Monitoring System Using IOT: 28 6.10 Automated Irrigation System-IoT Based Approach: ......................................... 28 6.11 Estudio del impacto técnico y económico de la transición de internet al internet de las cosas (IoT) para el caso colombiano: .............................................................. 29 6.12 Identifying the ICT challenges of the Agri-Food sector to define the Architectural Requirements for a Future Internet Core Platform: .................................................... 29 6.13 IoT in Agriculture: Designing a Europe-Wide Large-Scale Pilot: ...................... 29 6.14 An Overview of Internet of Things (IoT) and Data Analytics in Agriculture: Benefits and Challenges: ........................................................................................... 30 6.15 IoT Based Low Cost Smart Irrigation System ................................................... 30 6.16 IoT based smart irrigation monitoring and controlling system .......................... 31 6.17 Automatic plant moisture controller system using IoT ...................................... 31 6.18 IoT Backyard: Smart watering control system .................................................. 32 6.19 Smart Plant Watering System with Cloud Analysis and Plant Health Prediction. 32 6.20 IoT based smart system to support agricultural parameters: A case study ...... 33 6.21 Intelligent Crop Monitoring and Protection System in Agricultural fields Using IoT 33 6.22 Internet of Things (IoT) Applied to an Urban Garden ....................................... 34 6.23 A review of automatic irrigation system through IoT ......................................... 34 6.24 Smart Harvest Analysis Using Raspberry Pi Based on Internet of Things ....... 35 6.25 Precision agriculture using remote monitoring systems in Brazil ...................... 35 6.26 Smart irrigation and leaf disease identification system ..................................... 36 6.27 Smart water management platform: IoT-based precision irrigation for agriculture 37 7. Marco Teórico ......................................................................................................... 38 7.1 Usos y beneficios de la ruta tecnológica .......................................................... 39 7.1.1 ¿Qué es una ruta tecnológica? .................................................................. 39 7.1.2 Tipos de rutas tecnológicas ....................................................................... 39 7.1.3 Ruta tecnológica: Propósito[44] ................................................................. 40 7.1.4 Estructura de una ruta tecnológica ............................................................ 41 7.1.5 Panorama de las rutas tecnológicas encontradas en IoT con relación de IoT riego en Colombia. ........................................................................................... 44 7.1.6 Conectividad y transformación digital ........................................................ 45 7.1.7 El estado de las redes en Colombia .......................................................... 45 7.1.8 Alcance del Proyecto Nacional de Fibra Óptica ......................................... 46 8. Marco Legal ............................................................................................................ 53 8.1 Liderazgo y Política .......................................................................................... 53 8.2 Estrategia e implementación ............................................................................ 54 8.3 Asociaciones público-privada ........................................................................... 55 8.4 Desarrollo de Infraestructura para Internet de las cosas IoT. ........................... 55 8.5 Capacidad y Compromiso ................................................................................ 56 8.6 Desarrollo de capacitación en Internet de las cosas (IoT) dentro y fuera del Gobierno. ................................................................................................................... 57 8.7 Estandarización ................................................................................................ 57 8.7.1 Caso Colombiano - Antecedentes ............................................................. 57 8.7.2 Protección de los datos. ............................................................................ 59 8.7.3 Despliegue de Infraestructura. ................................................................... 59 8.7.4 Plan de acción ........................................................................................... 60 9. Metodología ............................................................................................................ 65 9.1 Minería de Datos/texto ..................................................................................... 66 9.2 Metodología CRIPS- DM para minería de datos[82]. ....................................... 66 9.2.1 Comprensión del negocio[82] .................................................................... 67 9.2.2 Comprensión de los datos[82] ................................................................... 67 9.2.3 Preparación de los datos ........................................................................... 67 9.2.4 Modelado. .................................................................................................. 68 9.2.5 Evaluación. ................................................................................................ 68 9.2.6 Implementación ......................................................................................... 68 10. Implementación de la metodología ...................................................................... 70 10.1 FASE 1: RECOLECCION................................................................................. 70 10.2 FASE 2: IDENTIFICACION .............................................................................. 71 10.3 FASE 3: EVALUACION .................................................................................... 72 10.4 FASE 4: VISUALIZACIÓN................................................................................ 72 10.5 Aplicación de la Metodología CRISP-DM ......................................................... 73 10.6 Comprensión del negocio................................................................................. 73 10.7 Comprensión de los datos................................................................................ 73 10.8 PREPARACION DE LOS DATOS .................................................................... 74 10.9 MODELADO ..................................................................................................... 74 10.10 EVALUACION ............................................................................................... 74 10.11 IMPLEMENTACION ...................................................................................... 75 11. Resultados .......................................................................................................... 76 11.1 FASE 1: RECOLECCIÓN DE LOS DATOS ..................................................... 76 11.2 FASE 2: IDENTIFICACION – CLASIFICACION DE DATOS ........................... 77 11.2.1 Minería de textos mediante el software Nvivo ........................................... 78 11.2.2 Ley de Pareto. ........................................................................................... 80 11.2.3 Caso Colombiano ...................................................................................... 82 12. Conclusiones ....................................................................................................... 87 13. Trabajos a Futuro ................................................................................................ 89 14. Presupuesto ........................................................................................................ 90 15. Anexos ................................................................................................................ 91 16. Bibliografía .......................................................................................................... 96spa
dc.format.mimetypeapplication/pdfspa
dc.language.isospaspa
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/2.5/co/*
dc.titlePrototipo de una ruta tecnológica para el IOT, enfocada en las tecnologías de riego, para los agricultores de pequeña escala en Colombiaspa
dc.title.translatedPrototype of a technological route for the IOT, focused on irrigation technologies, for small-scale farmers in Colombiaspa
dc.degree.nameIngeniero de Sistemasspa
dc.publisher.grantorUniversidad Autónoma de Bucaramanga UNABspa
dc.rights.localAbierto (Texto Completo)spa
dc.publisher.facultyFacultad Ingenieríaspa
dc.publisher.programPregrado Ingeniería de Sistemasspa
dc.description.degreelevelPregradospa
dc.type.driverinfo:eu-repo/semantics/bachelorThesis
dc.type.localTrabajo de Gradospa
dc.type.coarhttp://purl.org/coar/resource_type/c_7a1f
dc.subject.keywordsSystems engineereng
dc.subject.keywordsTechnological innovationseng
dc.subject.keywordsSmart irrigation systemeng
dc.subject.keywordsSmart irrigationeng
dc.subject.keywordsSmallholderseng
dc.subject.keywordsSoil moistureeng
dc.subject.keywordsCropseng
dc.subject.keywordsInternet of thingseng
dc.subject.keywordsIrrigated cropseng
dc.subject.keywordsArtificial intelligenceeng
dc.subject.keywordsSimulation methodseng
dc.identifier.instnameinstname:Universidad Autónoma de Bucaramanga - UNABspa
dc.identifier.reponamereponame:Repositorio Institucional UNABspa
dc.type.hasversioninfo:eu-repo/semantics/acceptedVersion
dc.rights.accessrightsinfo:eu-repo/semantics/openAccessspa
dc.rights.accessrightshttp://purl.org/coar/access_right/c_abf2spa
dc.relation.references[1] “FAO - News Article: 2050: A third more mouths to feed.” .spa
dc.relation.references[2] “¿Por qué Colombia ya no es un país en desarrollo?” .spa
dc.relation.references[3] “Sectores más representativos de la economía colombiana - Enciclopedia | Banrepcultural.” .spa
dc.relation.references[4] “TIC para el agro - SAC - Sociedad de Agricultores de Colombia.” .spa
dc.relation.references[5] “IEEE Xplore Full-Text PDF:”spa
dc.relation.references[6] “Texto completo del Acuerdo Final para la Terminación del conflicto.” .spa
dc.relation.references[7] A. Machado C, “El problema agrario en Colombia y sus soluciones,” Publicaciones (Fundación Marian. Ospina Pérez, no. 21, p. 151 p., 1981.spa
dc.relation.references[8] P. S. De Tavera, “(No Title),” 2016.spa
dc.relation.references[9] “Casi 30% de los distritos de riego públicos que hay a nivel nacional no funcionan.” .spa
dc.relation.references[10] “Sistemas de riego a la medida de pequeños agricultores - UNIMEDIOS: Universidad Nacional de Colombia.” .spa
dc.relation.references[11] S. Lee et al., “済無No Title No Title,” J. Chem. Inf. Model., vol. 53, no. 9, pp. 1689–1699, 2012, doi: 10.1017/CBO9781107415324.004.spa
dc.relation.references[12] “El PECTIA la gran herramienta para definir las líneas de acción y la toma de decisiones de la agroindustria nacional.” .spa
dc.relation.references[13] “Con PECTIA impulsaremos y fortaleceremos el sector Agro | Minciencias.” .spa
dc.relation.references[14] “Weblet Importer.” .spa
dc.relation.references[15] M. Oberascher et al., “Advanced rainwater harvesting through smart rain barrels,” in World Environmental and Water Resources Congress 2019: Watershed Management, Irrigation and Drainage, and Water Resources Planning and Management - Selected Papers from the World Environmental and Water Resources Congress 2019, 2019, pp. 75–82.spa
dc.relation.references[16] B. A. Keating and R. L. McCown, “Advances in farming systems analysis and intervention,” in Agricultural Systems, 2001, vol. 70, no. 2–3, pp. 555–579, doi: 10.1016/S0308-521X(01)00059-2.spa
dc.relation.references[17] J. E. Gómez, S. Castaño, T. Mercado, A. Fernandez, and J. Garcia, “Sistema de internet de las cosas (IoT) para el monitoreo de cultivos protegidos,” Ing. e Innovación, vol. 5, no. 1, 2017, doi: 10.21897/23460466.1101.spa
dc.relation.references[18] “Automatización de bajo costo utilizada en la producción agrícola en invernaderos y huertos caseros | Request PDF.” .spa
dc.relation.references[19] E. A. Q. Montoya, S. F. J. Colorado, W. Y. C. Muñoz, and G. E. C. Golondrino, “Propuesta de una Arquitectura para Agricultura de Precisión Soportada en IoT,” RISTI - Rev. Ibérica Sist. e Tecnol. Informação, no. 24, pp. 39–56, 2017, doi: 10.17013/risti.24.39–56.spa
dc.relation.references[20] J. C. Triana Useche, R. E. Rodriguez Leguizamo, and Jordan49@hotmail.com, “Prototipo de solución Iot con tecnología Lora en monitoreo de cultivos agrícolas,” May 2018.spa
dc.relation.references[21] “Sistema de Riego Basado En La Internet De Las Cosas (IoT) - PDF Free Download.” .spa
dc.relation.references[22] D. H. Peluffo, U. Surcolombiana, J. Ivan-rios, J. A. Castro-silva, and L. H. E. Llanos, “Sistema de Riego Basado En La Internet De Las Cosas ( IoT ),” no. April, pp. 1–9, 2017.spa
dc.relation.references[23] M. A. Espinosa Carreño, E. Romero Riaño, L. Y. Flórez G., and C. D. Guerrero, “Methodological proposal for the compilation and analysis of information from scientific articles. An approach from bibliometrics and the systematic review of literature,” RISTI - Rev. Iber. Sist. e Tecnol. Inf., vol. 2020, no. E28, pp. 110–122, 2020, [Online]. Available: http://www.risti.xyz/issues/ristie28.pdf.spa
dc.relation.references[24] M. Pravin N. Kathavate and D. J. Amudhavel, “Route Map of Privacy Preservation to IOT,” Int. J. Eng. Technol., vol. 7, no. 2.7, p. 825, Mar. 2018, doi: 10.14419/ijet.v7i2.7.11076.spa
dc.relation.references[25] “(PDF) Sensor based Automated Irrigation System with IOT: A Technical Review.”spa
dc.relation.references[26] M. L. Garcia and O. H. Bray, “Fundamentals of Technology Roadmapping,” 1997.spa
dc.relation.references[27] “(PDF) Identifying the ICT challenges of the Agri-Food sector to define the Architectural Requirements for a Future Internet Core Platform.” .spa
dc.relation.references[28] O. Elijah, S. Member, T. Abdul Rahman, I. Orikumhi, C. Yen Leow, and M. Nour Hindia, “An Overview of Internet of Things (IoT) and Data Analytics in Agriculture: Benefits and Challenges,” IEEE INTERNET THINGS J., vol. 5, no. 5, 2018, doi: 10.1109/JIOT.2018.2844296spa
dc.relation.references[29] K. Pernapati, “IoT Based Low Cost Smart Irrigation System,” in Proceedings of the International Conference on Inventive Communication and Computational Technologies, ICICCT 2018, 2018, pp. 1312–1315, doi: 10.1109/ICICCT.2018.8473292.spa
dc.relation.references[30] S. B. Saraf and D. H. Gawali, “IoT based smart irrigation monitoring and controlling system,” in RTEICT 2017 - 2nd IEEE International Conference on Recent Trends in Electronics, Information and Communication Technology, Proceedings, 2017, vol. 2018-Janua, pp. 815–819, doi: 10.1109/RTEICT.2017.8256711.spa
dc.relation.references[31] S. Ali and G. Padmapriya, “Automatic plant moisture controller system using IoT,” Test Eng. Manag., vol. 83, pp. 11310–11313, 2020.spa
dc.relation.references[32] P. Jariyayothin, K. Jeravong-Aram, N. Ratanachaijaroen, T. Tantidham, and P. Intakot, “IoT Backyard: Smart watering control system,” in Proceeding of 2018 7th ICT International Student Project Conference, ICT-ISPC 2018, 2018, doi: 10.1109/ICT-ISPC.2018.8523856.spa
dc.relation.references[33] A. Reghukumar and V. Vijayakumar, “Smart Plant Watering System with Cloud Analysis and Plant Health Prediction.,” in Procedia Computer Science, 2019, vol. 165, pp. 126–135, doi: 10.1016/j.procs.2020.01.088.spa
dc.relation.references[34] S. S. Ramaprasad, B. S. Sunil Kumar, S. Lebaka, P. R. Prasad, K. N. Sunil Kumar, and G. N. Manohar, “Intelligent Crop Monitoring and Protection System in Agricultural fields Using IoT,” in 2019 4th IEEE International Conference on Recent Trends on Electronics, Information, Communication and Technology, RTEICT 2019 - Proceedings, 2019, pp. 1527–1531, doi: 10.1109/RTEICT46194.2019.9016770spa
dc.relation.references[35] G. Carrión, M. Huerta, and B. Barzallo, “Internet of Things (IoT) Applied to an Urban Garden,” in Proceedings - 2018 IEEE 6th International Conference on Future Internet of Things and Cloud, FiCloud 2018, 2018, pp. 155–161, doi: 10.1109/FiCloud.2018.00030.spa
dc.relation.references[36] R. Sharma and D. Dhabliya, “A review of automatic irrigation system through IoT,” Int. J. Control Autom., vol. 12, no. 6 Special Issue, pp. 24–29, 2019spa
dc.relation.references[37] D. Negi, A. Kumar, P. Kadam, and B. N. Savant, “Smart Harvest Analysis Using Raspberry Pi Based on Internet of Things,” in Proceedings - 2018 4th International Conference on Computing, Communication Control and Automation, ICCUBEA 2018, 2018, doi: 10.1109/ICCUBEA.2018.8697780.spa
dc.relation.references38] R. F. Maia, I. Netto, and A. L. H. Tran, “Precision agriculture using remote monitoring systems in Brazil,” in GHTC 2017 - IEEE Global Humanitarian Technology Conference, Proceedings, 2017, vol. 2017-Janua, pp. 1–6, doi: 10.1109/GHTC.2017.8239290.spa
dc.relation.references[39] C. Kamienski et al., “Smart water management platform: IoT-based precision irrigation for agriculture,” Sensors (Switzerland), vol. 19, no. 2, 2019, doi: 10.3390/s19020276.spa
dc.relation.references[40] A. Marta, V. Loureiro, S. Borschiver, P. Luiz, and A. Coutinho, “The Technology Roadmapping Method and its Usage in Chemistry,” 2010.spa
dc.relation.references[41] A. F. Blackwell, R. Phaal, M. Eppler, and N. Crilly, “Strategy roadmaps: New forms, new practices,” Lect. Notes Comput. Sci. (including Subser. Lect. Notes Artif. Intell. Lect. Notes Bioinformatics), vol. 5223 LNAI, pp. 127–140, 2008, doi: 10.1007/978-3-540-87730-1_14.spa
dc.relation.references[42] P. Groenveld, “Roadmapping integrates business and technology,” Research Technology Management, vol. 40, no. 5. Taylor & Francis, Sep. 1997, doi: 10.1080/08956308.1997.11671157.spa
dc.relation.references[43] G. V. Rocha and C. H. P. Mello, “How to develop technology roadmaps? The case of a hospital automation company,” Producao, vol. 26, no. 2, pp. 345–358, Apr. 2016, doi: 10.1590/0103-6513.173614spa
dc.relation.references[44] R. Phaal, “Technology roadmapping - A planning framework for evolution and revolution,” Technol. Forecast. Soc. Change, vol. 71, no. 1–2, pp. 5–26, 2004, doi: 10.1016/S0040-1625(03)00072-6.spa
dc.relation.references[45] R. E. Albright, “A Unifying Architecture for Roadmaps Frames a Value Scorecard.”spa
dc.relation.references46] “¿Qué son los Planes Estratégicos Departamentales en Ciencia, Tecnología e Innovación - PEDCTI? | Minciencias.” .spa
dc.relation.references[47] D. Nacional and D. P. Dnp, “AproximacionalimpactodelasTICenladesigualdaddeingresosenColombia 1,” p. 35, 2018.spa
dc.relation.references[48] “MARCO ESTRATÉGICO CORPORATIVO 2018 – 2028.” .spa
dc.relation.references[49] “La hoja de ruta del MinTIC para el 2020: conectividad y transformación digital.”spa
dc.relation.references[50] I. Luis and C. Luis García, “ESTUDIO DEL IMPACTO TÉCNICO Y ECONÓMICO DE LA TRANSICIÓN DE INTERNET AL INTERNET DE LAS COSAS (IoT) PARA EL CASO COLOMBIANO,” 2014.spa
dc.relation.references[51] “Proyecto Nacional de Fibra Óptica - Ministerio de Tecnologías de la Información y las Comunicaciones.” .spa
dc.relation.references[52] “MinTIC inicia proceso para desarrollar pruebas 5G en las regiones y publica plan de acción para que dicha tecnología sea una realidad antes de 2022 - Ministerio de Tecnologías de la Información y las Comunicaciones.”spa
dc.relation.references[53] S. Constaín, I. A. Mantilla Gaviria, G. C. Rueda Jiménez, L. F. Trujillo, and J. G. Barrera Medina, “Plan 5G Colombia - El Futuro Digital es de Todos,” Minist. Tecnol. la Inf. y las, pp. 1–93, 2019.spa
dc.relation.references[54] MinTIC Colombia, “Boletín Trimestral de las TIC,” Boletín Trimest. las TIC, pp. 1– 50, 2020.spa
dc.relation.references[55] “Primera prueba piloto de 5G en Colombia ayudará a identificar los casos de COVID-19 - Ministerio de Tecnologías de la Información y las Comunicaciones.”spa
dc.relation.references[56] “RFC 2460 - Internet Protocol, Version 6 (IPv6) Specification.” .spa
dc.relation.references[57] “¿Qué es el protocolo IPv6 y por qué es importante entender la urgencia de su implementación? - Ministerio de Tecnologías de la Información y las Comunicaciones.” .spa
dc.relation.references[58] “Plattform Industrie 4.0 - Fehler!” .spa
dc.relation.references[59] “UK Digital Strategy - GOV.UK.”spa
dc.relation.references[60] “Prime Minister’s Office Singapore (PMO).” .spa
dc.relation.references[61] W. B. Group, “Internet of things: The New Government to Business Platform: A REVIEW OF OPPORTUNITIES, PRACTICES, AND CHALLENGES,” Lect. Notes Comput. Sci. (including Subser. Lect. Notes Artif. Intell. Lect. Notes Bioinformatics), vol. 7768 LNCS, pp. 257–282, 2017, doi: 10.1007/978-3-642- 41569-2-13.spa
dc.relation.references[62] “Data protection in the EU | European Commission.”spa
dc.relation.references[63] “Telecom Regulatory Policy CRTC 2020-40 | CRTC.”spa
dc.relation.references[64] “X-Road® — e-Estonia.”spa
dc.relation.references[65] “Technology and innovation futures 2017 - GOV.UK.” .spa
dc.relation.references[66] “German Bundestag - Digital Agenda.”spa
dc.relation.references[67] “Verwaltung innovativ - Regierungsprogramm 18. Legislaturperiode.” .spa
dc.relation.references[68] “Digital 2020: Estonia — DataReportal – Global Digital Insights.spa
dc.relation.references[69] “Bristol Is Open - Open Programmable City.” .spa
dc.relation.references[70] “Blue City Mannheim: Elektromobilität und smarte Energieversorgung | Mannheim.de.” .spa
dc.relation.references[71] “FRANKLIN - Leben in Mannheim.” .spa
dc.relation.references[72] “Welcome to Mississauga Training Consultants, the Fiber Optics Instructors – Advancing Careers in the Field of Fiber Opticsspa
dc.relation.references[73] “神戸市:ご指定のページは見つかりませんでした.” .spa
dc.relation.references[74] “IoTUK Nation Database - Data Mill North.” .spa
dc.relation.references[75] “Data Dome Archives - Bristol Is Open.” .spa
dc.relation.references[76] “Dubai Data | Dubai Data Solutions | Smart Dubai Data Initiatives | Smart Dubai.” .spa
dc.relation.references[77] “Increasing the Potential of IoT through Security and Transparency | National Telecommunications and Information Administration.” .spa
dc.relation.references[78] “Online courses from The Open University.” .spa
dc.relation.references[79] “eKool and Stuudium — e-Estonia.” .spa
dc.relation.references[80] “Hafen Hamburg | Statistik Containerumschlag im Hamburger Hafen.” .spa
dc.relation.references[81] “eduroam | CANARIE.”spa
dc.relation.references[82] G. García, “Aplicación de la metodología Crisp-Dm a la recolección y análisis de datosgGeorreferenciados desde Twitter.,” p. undefined-undefined, 2018.cspa
dc.relation.references[83] “NVivo - Text Mining Tools and Methods - LibGuides at University of Illinois at Urbana-Champaign.” .spa
dc.contributor.cvlachttps://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001495409*
dc.contributor.cvlacEspinosa Carreño, María Alexandra [0001495409]spa
dc.contributor.googlescholarEspinosa Carreño, María Alexandra [Ve6S8ocAAAAJ&hl]spa
dc.contributor.orcidhttps://orcid.org/0000-0003-1411-0828*
dc.contributor.orcidEspinosa Carreño, María Alexandra [0000-0003-1411-0828]spa
dc.contributor.researchgatehttps://www.researchgate.net/profile/Maria_Espinosa_C*
dc.contributor.researchgateEspinosa Carreño, María Alexandra [Maria-Espinosa-C]
dc.subject.lembIngeniería de sistemasspa
dc.subject.lembInnovaciones tecnológicasspa
dc.subject.lembCultivos de regadíospa
dc.subject.lembInteligencia artificialspa
dc.subject.lembMétodos de simulaciónspa
dc.identifier.repourlrepourl:https://repository.unab.edu.cospa
dc.description.abstractenglishThis project focuses on developing a technified strategy of setting up roadmaps for the Colombian agriculture using text mining and artificial intelligence. We are looking for another correct and well-planned alternative for the existing irrigation systems and the technology which is currently being utilizes as a solution to this problem. The difficulties reflected un the Colombian agriculture had come out as a consequence of the social and military conflict against illegal groups. This bachelor thesis attempts to provide a prototype of a roadmap to the construction and to provide a solution to the problem that is necessary for the proper functioning of agriculture.eng
dc.subject.proposalInternet de las cosasspa
dc.subject.proposalSistema de riego inteligentespa
dc.subject.proposalRiego inteligentespa
dc.subject.proposalPequeños agricultoresspa
dc.subject.proposalHumedad de suelospa
dc.subject.proposalCultivosspa
dc.type.redcolhttp://purl.org/redcol/resource_type/TP
dc.rights.creativecommonsAtribución-NoComercial-SinDerivadas 2.5 Colombia*
dc.contributor.apolounabEspinosa Carreño, María Alexandra [maria-alexandra-espinosa-carreño]spa
dc.coverage.campusUNAB Campus Bucaramangaspa
dc.description.learningmodalityModalidad Presencialspa


Files in this item

Thumbnail
Thumbnail

This item appears in the following Collection(s)

Show simple item record

Atribución-NoComercial-SinDerivadas 2.5 Colombia
Except where otherwise noted, this item's license is described as Atribución-NoComercial-SinDerivadas 2.5 Colombia