Laboratorio remoto para la formación de usuarios basado en el cloud
DOI:
https://doi.org/10.24215/18509959.0.p.%207-18Palabras clave:
Laboratorios remotos, Entrenamiento de usuarios, WSN, Cloud ComputingResumen
Este artículo presenta un prototipo de laboratorio remoto de redes de sensores inalámbricos destinado a la formación y entrenamiento de usuarios. El prototipo ha sido desplegado sobre una infraestructura de Cloud Computing, con el objetivo de aprovechar los beneficios que esta tecnología puede brindar a los laboratorios remotos. Se analiza el estado del arte del problema, el cual permite especificar las características necesarias que debe cumplir un laboratorio remoto destinado a formación y entrenamiento de usuarios. Luego se discute la implementación de los módulos principales que componen el laboratorio remoto, y el análisis que conduce a escoger un despliegue basado en Cloud Computing. El trabajo presenta resultados de experimentos diseñados para validar la tecnología propuesta.
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[2] M. Waldrop, “Education online: the virtual lab.” Nature, vol. 499, no. 7458, pp. 268–270, 2013.
[3] J. Yick, B. Mukherjee, and D. Ghosal, “Wireless sensor network survey,” Computer Networks, vol. 52, no. 12, pp. 2292 –2330, 2008.
[4] E. Gilbert, “Research issues in wireless sensor network applications: a survey,” International Journal of Information and Electronics Engineering, vol. 2, no. 5, pp. 702–706, 11 2012.
[5] G. Zhao, “Wireless sensor networks for industrial process monitoring and control: A survey,” Network Protocols and Algorithms, vol. 3, no. 1, pp. 46–63, 2011.
[6] R. Buyya, C. S. Yeo, S. Venugopal, J. Broberg, and I. Brandic, “Cloud computing and emerging IT platforms: Vision, hype, and reality for delivering computing as the 5th utility,” Future Generation Computer Systems, vol. 25, no. 6, pp. 599 –616, 2009.
[7] P. Mell and T. Grance, “The NIST definition of Cloud Computing (Draft),” NIST Special Publication, vol. 800, p. 145, 2011.
[8] A. Maiti and B. Tripathy, “Remote laboratories: Design of experiments and their web implementation.” Journal of Educational Technology & Society, vol. 16, no. 3, 2013.
[9] L. Steyn and G. Hancke, “A survey of wireless sensor network testbeds,” in AFRICON, 2011, Sept 2011, pp. 1–6.
[10] K. El-Darymli and M. Ahmed, Wireless Sensor Networks and Energy Efficiency: Protocols, Routing and Management. IGI Global, 2012, ch. Wireless Sensor Network Testbeds, pp. 148–205.
[11] H. Hellbruck, M. Pagel, A. Kroller, D. Bimschas, D. Pfisterer, and S. Fischer, “Using and operating wireless sensor network testbeds with WISEBED,” in Ad Hoc Networking Workshop (Med-Hoc-Net), 2011 The 10th IFIP Annual Mediterranean, june 2011, pp. 171 –178.
[12] P. Godoy, L. Iacono, R. Cayssials, and C. García Garino, “A survey of WSN testbeds deployment,” Congreso Argentino de Sistemas Embebidos (CASE), 2012.
[13] P. Orduna, A. Gomez-Goiri, L. Rodriguez-Gil, J. Diego, D. Lopez-de Ipina, and J.Garcia-Zubia, “wCloud: Automatic generation of WebLab-Deusto deployments in the Cloud,” in Remote Engineering and Virtual Instrumentation (REV), 2015 12th International Conference on, Feb 2015, pp. 223–229.
[14] M. Tawfik, C. Salzmann, D. Gillet, D. Lowe, H. Saliah-Hassane, E. Sancristobal, and M. Castro, “Laboratory as a service (LaaS): A model for developing and implementing remote laboratories as modular components,” in Remote Engineering and Virtual Instrumentation (REV), 2014 11th International Conference on, Feb 2014, pp. 11–20.
[15] S. Misra, S. Chatterjee, and M. Obaidat, “On theoretical modeling of sensor Cloud: A paradigm shift from wireless sensor network,” Systems Journal, IEEE, vol. PP, no. 99, pp. 1–10, 2014.
[16] L. Iacono, C. García Garino, O. Marianetti, and C. Párraga, “Wireless sensor networks: A software as a service approach,” Prospective and Ongoing Projects, VI Latin American Symposium on High Performance Computing (HPCLatAm 2013), Mendoza, Argentina, pp. 184–195, 2013.
[17] L. Iacono, P. Godoy, O. Marianetti, C. García Garino, and C. Párraga, “Estudio de la integración entre WSN y redes TCP/IP,” Memoria de Trabajos de Difusión Científica y Técnica 10, 2012, ISSN 1510-7450.
[18] M. W. Bazzaza; K. Salah: Using the Cloud to Teach Compute rNetworks. In: 2015 IEEE/ACM 8th International Conference on Utility and Cloud Computing (UCC), pp. 310–314.
[19] K. Salah: Harnessing the Cloud for Teaching cybersecurity. In: Proceedings of the 45th ACM Technical Symposium on Computer Science Education, SIGCSE ’14, ACM, New York, NY, USA, ISBN 978-1-4503-2605-6, pp. 529–534,
[20] K. Salah; M. Hammoud; S. Zeadally: Teaching Cybersecurity Using the Cloud. IEEE Transactions on Learning Technologies, 2015, vol. 8(4), pp. 383–392, ISSN 1939-1382.
[21] P. Godoy, Plataforma de Desarrollo de Laboratorios Remotos de Redes de Sensores Inalámbricos basados en Cloud Computing. Universidad de Mendoza, Facultad de Ingeniería, Tesis de Doctorado en Ingeniería, 2016.
[22] G. Werner-Allen, P. Swieskowski, and M. Welsh, “MoteLab: a wireless sensor network testbed,” in Information Processing in Sensor Networks, 2005. IPSN 2005. Fourth International Symposium on, april 2005, pp. 483 –488.
[23] O. Marianetti, Laboratorios remotos, un aporte para su diseño y gestión. Universidad de Mendoza, Facultad de Ingeniería, Tesis de Maestría en Teleinformática, 2006.
[24] K. Jona and D. Uttal, “Don’t forget the teacher: New tools to support broader adoption of remote labs,” in
Remote Engineering and Virtual Instrumentation (REV), 2013 10th International Conference on, Feb 2013, pp. 1–2.
[25] P. Godoy, R. Cayssials and C. García Garino, "A WSN Testbed for Teaching Purposes," IEEE Latin America Transactions, vol. 14, issue 7, 2016.
[26] Google Inc. (2013) Google App Engine website. Retrieved in 2015.
[27] Digi International Inc. (2008) XBee ZB low power ZigBee module with integrated wire antenna datasheet. Retrieved in 2015.
[28] Institute of Electrical and Electronic Engineers, “IEEE std 802.15.4-2003,” pp. 1–670, 2003.
[29] P. Godoy, L. Iacono, R. Cayssials, C. Párraga, C. García Garino, “Effect of working conditions over the performance in ZigBee WSN”, In Capítulo Sistemas de Control, Anales de la primera edición del Congreso de la Sección Argentina de IEEE (Argencon) 2012, Córdoba, Argentina, ISBN: 987-572-076-3
[30] P. Godoy, R. Cayssials, and C. García Garino, “Zigbee WSN Round Trip Latency in Function of Channel Occupation and Nodes Configuration”, In IEEE ArgenCon 2016.
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