| dc.contributor | Bareño-Gutiérrez, Raúl | |
| dc.creator | Forero-Muñoz, Angélica María | |
| dc.creator | Ramírez-Delgado, Manuel Andrés | |
| dc.date.accessioned | 2020-07-24T15:58:13Z | |
| dc.date.available | 2020-07-24T15:58:13Z | |
| dc.date.created | 2020-07-24T15:58:13Z | |
| dc.date.issued | 2019 | |
| dc.identifier | Forero-Muñoz, A.M. & Ramírez-Delgado, M.A. (2019). Revisión sistemática del uso de los diferentes protocolos de interconexión para internet de las cosas (IoT). Trabajo de Grado. Universidad Católica de Colombia. Facultad de Ingeniería. Programa de Ingeniería de Sistemas. Bogotá, Colombia | |
| dc.identifier | https://hdl.handle.net/10983/24588 | |
| dc.description.abstract | El presente documento presenta una revisión sistemática acerca del uso de los diferentes protocolos de interconexión que son más destacados e interoperables para lograr la implementación de internet de las cosas (IoT) dentro de entornos empresariales y el hogar.
Para la elaboración de este trabajo se implementó una metodología especializada en revisiones sistemáticas llamada metodología de Bárbara Kitchenham, desarrollada en 2004 por la autora del mismo nombre. Adicionalmente se utilizó un software especial para este tipo de trabajos llamado Start, con el que se ha extraído la información de las bases de datos IEEE y SCOPUS que nos dio como resultado un número de artículos científicos seleccionados minuciosamente bajo unos criterios de elegibilidad y calidad definidos dentro del desarrollo de la metodología. | |
| dc.language | spa | |
| dc.publisher | Facultad de Ingeniería | |
| dc.publisher | Ingeniería de Sistemas y Computación | |
| dc.relation | (s.f.). Obtenido de elandroidelibre.elespanol.com/wp-content/uploads/2015/08/arquitectura-sistema-es.jpg | |
| dc.relation | Rahman, S. R. (2018). A Lightweight Multi-tier S-MQTT Framework to Secure Communication between low-end IoT Nodes. IEEE | |
| dc.relation | Adiono, T., Manangkalangi, B. A., Muttaqin, R., Harimurti, S., & Adijarto, W. (2018). Intelligent and secured software application for IoT based smart home | |
| dc.relation | Alliance, L. (nov de 2015). Obtenido de https://lora- alliance.org/sites/default/files/2018-04/what-is-lorawan.pdf | |
| dc.relation | Al-Sarawi, S., Anbar, M., Alieyan, K., & Alzubaidi, M. (2017). Internet of Things (IoT) communication protocols: Review. | |
| dc.relation | An, P. m., & Kim, T. (2018). A Study of the Z-Wave Protocol: Implementing Your Own Smart Home Gateway. | |
| dc.relation | Andy, S., Rahardjo, B., & Hanindhito, B. (2017). Attack scenarios and security analysis of MQTT communication protocol in IoT system | |
| dc.relation | Ángel, A. (12 de apr de 2019). El futuro de tu red. Obtenido de https://search-proquest-com.ucatolica.basesdedatosezproxy.com/docview/2207874235?accountid=45660 | |
| dc.relation | Aron Semle, K.-e. (s.f.). Protocolos IoT para considerar | |
| dc.relation | Asif Iqbal, F. U. (2018). Interoperable Internet-of-Things Platform for Smart Home System using Web-of-Objects and Cloud. | |
| dc.relation | Bello, O., Zeadally, S., & Badra, M. (2017). Network layer inter-operation of Device-to-Device communication technologies in Internet of Things (IoT). | |
| dc.relation | Binbin Yong, X. L. (2019). Malicious Web traffic detection for Internet of Things environments,. Computers & Electrical Engineering,. | |
| dc.relation | Bonavolonte, F., Tedesco, A., Moriello, R., & Tufano, A. (2017). Enabling wireless technologies for industry 4.0: State of the art. | |
| dc.relation | Centenaro, L. V. (2 de mar de 2019). Worldwide Connectivity for the Internet of Things Through LoRaWAN. Future Internet | |
| dc.relation | Cest, J. S.-2. (10 de sep de 2018). Wifi 4, Wifi 5 y Wifi 6, la nueva denominación del Wifi que utilizas en casa. | |
| dc.relation | Chaudhary, A., Peddoju, S. K., & Kadarla, K. (2017). Study of Internet-of- Things Messaging Protocols Used for Exchanging Data with External Sources. | |
| dc.relation | Chen, C., Zhao, H., Qiu, T., Hou, R., & Sangaiah, A. (2018). A multi-station block acknowledgment scheme in dense IoT networks. | |
| dc.relation | Electronics, S. (8 de jun de 2019). Wifi 6: Faster, Better, And More Efficient Next-Gen Wifi. Obtenido de https://search-proquest-com.ucatolica.basesdedatosezproxy.com/docview/2236662505?accountid=45660 | |
| dc.relation | García, D. G. (9 de jun de 2015). Estudio de 6loWPAN para su aplicacion a Internet de las Cosas. Obtenido de https://riull.ull.es/xmlui/bitstream/handle/915/945/Estudio%20de%206loWPA N%20para%20su%20aplicacion%20a%20Internet%20de%20las%20Cosas. pdf?sequence=1&isAllowed=y] | |
| dc.relation | Gawanmeh, A. (2011). Embedding and Verification of Zigbee Protocol Stack in Event-B. | |
| dc.relation | Gomez, 4. C. (2013). Implementacion del protocolo CoAP en Xtend. HonLiang Yuan, J. W. (2016). Research of ZigBee and Big Data Analysis based pulse. ELSERVIER. | |
| dc.relation | Huh, H., & Kim, J. Y. (2019). LoRa-based Mesh Network for IoT Applications | |
| dc.relation | Jaloudi, S. (2018). Communication protocols of an industrial internet of things environment: A comparative study. | |
| dc.relation | Kang, B., Kim, D., & Choo, H. (2018). Internet of Everything: A Large-Scale Autonomic IoT Gateway. | |
| dc.relation | Karen Rose, S. E. (2015). The internet of things: An overview. Internet Society, 53. | |
| dc.relation | Khakimov, A., Muthanna, A., Kirichek, R., Koucheryavy, A., & Muthanna, M.S. (2017). Investigation of methods for remote control IoT-devices based on cloud platforms and different interaction protocols. | |
| dc.relation | Kitchenham, B. (2004). Procedures for Performing Systematic Reviews . Keele University Technical Report TR/SE-0401 . Obtenido de http://www.inf.ufsc.br/~aldo.vw/kitchenham.pdf. | |
| dc.relation | Knight, M. (2006). Wireless security - How safe is Z-wave? Obtenido de Computing and Control Engineering: https://doi- org.ucatolica.basesdedatosezproxy.com/10.1049/cce:20060601 | |
| dc.relation | Kome, M. L., Cuppens, F., Cuppens-Boulahia, N., & Frey, V. (2018). CoAP Enhancement for a Better IoT Centric Protocol: CoAP 2.0. | |
| dc.relation | Krejavak, R., Hujvak, O., & a vepe, M. (2018). Security survey of the IoT wireless protocols | |
| dc.relation | LaPES Laboratorio Pesquisa em Engenharia de Software. (2000-2019). Obtenido de http://lapes.dc.ufscar.br/resources-and-downloads/tools | |
| dc.relation | Lee, J. (2018). OFDMA-based Hybrid Channel Access for IEEE 802.11ax WLAN. | |
| dc.relation | Luís M. L. Oliveira, J. J. (2013). A Network Access Control Framework for 6LoWPAN Networks. SENSORS. Obtenido de https://www.mdpi.com/journal/sensors | |
| dc.relation | Mallas, L. (17 de abril de 2019). Ingenieria informatica y diseño. Obtenido de Ingenieria informatica y diseño: https://www.luisllamas.es/wp- content/uploads/2019/02/protocolos-iot-pubsub.png | |
| dc.relation | Martins, I. R. (2015). ESTUDO DOS PROTOCOLOS DE COMUNICAÇÃO MQTT E COAP PARA | |
| dc.relation | Mois, G., Folea, S., & Sanislav, T. (2017). Analysis of Three IoT-Based Wireless Sensors for Environmental Monitoring. | |
| dc.relation | Naik, K. P., & Joshi, U. R. (2017). Performance analysis of constrained application protocol using Cooja simulator in Contiki OS | |
| dc.relation | Naik, N. (2017). Choice of effective messaging protocols for IoT systems: MQTT, CoAP, AMQP and HTTP. | |
| dc.relation | Naik, N. (2018). Choice of effective messaging protocols for IoT systems: MQTT, CoAP, AMQP and HTTP | |
| dc.relation | Nawa Mohamudally, M. P.-M. (2018). Building An Anomaly Detection Engine (ADE) for IoT Smart Applications. ScienceDirect | |
| dc.relation | Novelli, L., Jorge, L., Melo, P., & Koscianski, A. (2018). Application Protocols and Wireless Communication for IoT: A Simulation Case Study Proposal. | |
| dc.relation | Nuratch, S. (2017). Applying the MQTT Protocol on Embedded System for Smart Sensors/Actuators and IoT Applications | |
| dc.relation | Oladayo Bello, S. Z. (2016). Network Layer Inter-operation of Device-to- Device Communication Technologies in Internet of Things (IoT). | |
| dc.relation | P. Alqinsi, I. J. (2018). IoT-Based UPS Monitoring System Using MQTT Protocols. IEEE | |
| dc.relation | Patiño-Carrillo, A. P.-L.-F. (2018). Bidirectional single sideband transmission of Millimeter Waves over Fiber for 5G Mobile Networks. TecnoLógicas, 21(43). 15-26. | |
| dc.relation | PENALVA, J. (10 de feb de 2019). Xataca. Obtenido de https://www.xataka.com/especiales/que-wifi-6-que-va-a-mejorar-tu-red-wifi- casa-cuando-te-conectes-a-publica | |
| dc.relation | Pereira, O., & Krajatovi, T. (2019). More efficient IoT communication through LoRa network with LoRa@FIIT and STIOT protocols. | |
| dc.relation | Pramukantoro, E., & Anwari, H. (2018). An event-based middleware for syntactical interoperability in internet of things | |
| dc.relation | Priyadarshi, D., & Behura, A. (2018). Analysis of Different IoT Protocols for Heterogeneous Devices and Cloud Platform | |
| dc.relation | Quichimbo, J. E. (2017). Managning Mobility For Distributed Smart Cities Services. 16,17. | |
| dc.relation | Rathod, D. D., & Patil, S. (2017). Security Analysis of Constrained Application Protocol (CoAP): IoT Protocol. INTERNATIONAL JOURNAL OF ADVANCED STUDIES, 1 | |
| dc.relation | Raza, S., Misra, P., He, Z., & Voigt, T. (2018). Building the Internet of Things with bluetooth smart. | |
| dc.relation | Ribeiro, G. G., Lima, L. F., Oliveira, L., Rodrigues, J. J., Marins, C. N., & Marcondes, G. A. (2018). An Outdoor Localization System Based on SigFox. Safer, smarter homes start with Z-Wave. (2019). Obtenido de https://www.z-wave.com/ | |
| dc.relation | Sarierao, B. S., & Prakasarao, A. (2018). Smart Healthcare Monitoring System Using MQTT Protocol | |
| dc.relation | Shadi Al-Sarawi, M. A. (2017). Internet of Things (IoT) communication protocols: Review. | |
| dc.relation | Shah, M. K., & Sharma, L. K. (2018). Study on 6LoWPAN Routing Protocols with SD aspects in IoT. | |
| dc.relation | Shahid Raza, P. M. (2017). Building the Internet of Things with bluetooth smart. Ad Hoc Networks. | |
| dc.relation | Sharma, C., & Gondhi, D. N. (2018). Communication Protocol Stack for Constrained IoT Systems | |
| dc.relation | Simone Cirani, G. F. (2018). Virtual Replication of IoT Hubs in the Cloud: A Flexible Approach to Smart Object Management. Journal of Sensor and Actuator Netwarks. | |
| dc.relation | Thota, P., Kim, Y., W., L., S., X., N., N., & T., G. (2017). Implementation and Comparison of M2M Protocols for Internet of Things. | |
| dc.relation | Tschofenig, H. e. (2015). Internet of Things | |
| dc.relation | valle, 3. D. (2014). IoT: Tecnologias, usos, tendencias y desarrollo futuro. | |
| dc.relation | Z-Wave Enters 2007 Leading the Wireless Home Control and Automation Industry; Z-Wave Completes Landmark Year with Third Generation Chip Release and Record Growth. (9 de jun de 2017). Obtenido de https://search-proquest-com.ucatolica.basesdedatosezproxy.com/docview/451057177?accountid=45660 | |
| dc.rights | info:eu-repo/semantics/openAccess | |
| dc.rights | Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0) | |
| dc.rights | https://creativecommons.org/licenses/by-nc-nd/4.0/ | |
| dc.rights | Derechos Reservados - Universidad Católica de Colombia, 2019 | |
| dc.title | Revisión sistemática del uso de los diferentes protocolos de interconexión para internet de las cosas (IoT) | |
| dc.type | Trabajo de grado - Pregrado | |
