Characterization of solutions for virtualization applications: preliminary diffusion

Keywords: virtualization, applications virtualization, Centralized access, streaming

Abstract

In this paper preliminary results of the graduation project in the form of research entitled Characterization of solutions for application virtualization are presented, which started with a study in order to determine if it was necessary to close the knowledge about application virtualization for the members of the GRID group at Universidad del Quindío. After finding an interest in the Group for knowing more about this technology, it was initiated the construction of a comparison chart where characteristics of each solution were analyzed, in order to select those who met criteria previously identified and performed its functional exploration. This exploration was developed with the
solutions Citrix XenApp 7.5 and VMWare Horizon 6 with view.

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Author Biographies

Christian Andrés Candela Uribe, Universidad del Quindío

Ingeniero de Sistemas y Computación de la Universidad del Quindío. Magíster en Comercio Electrónico del Instituto Tecnológico de Monterrey, México. Desde el año 2004 es profesor en la Universidad del Quindío. Actualmente es líder del Grupo de Investigación en Redes, Información y Distribución – GRID, de
la misma Universidad. Correo electrónico christiancandela@grid.edu.co

Luis Eduardo Sepúlveda Rodríguez, Universidad del Quindío

Ingeniero de Sistemas y Computación de la Universidad del Quindío, Magíster en Software Libre de la Universidad Autónoma de Bucaramanga en colaboración con la Universitat Oberta de Catalunya España. Desde el año 2004 se ha desempeñado como profesor en la Universidad del Quindío. Armenia, Colombia. Correo electrónico: lesepulveda@grid.edu.co

Eyna Milena Vanegas Neira, Universidad del Quindío

Estudiante de Ingeniería de Sistemas y Computación de la Universidad del Quindío. Armenia, Colombia. Correo electrónico: emvanegasn@uqvirtual.edu.co

References

Citrix, “Citrix XenApp 7.5,” 2014. [Online]. Available: http://www. citrix.es/products/xenapp/overview.html.

VMware, “VMWare,” 2014. [Online]. Available: http://www.vmware. com/co/products/horizon-view.

C. E. Gómez, L. E. Sepúlveda, and C. Candela, “Servidor Proxy Caché : Comprensión y asimilación tecnológica,” pp. 149–162, 2012.

CMMI, “Decision Analysis and Resolution,” 2014. [Online]. Available: http://cmmiinstitute.com/resource/dar-basics-applyingdecision-analysis-and-resolution-in-the-real-world/.

P. Pelaez, “Virtualización empresarial aplicada a la infraestructura tecnológica del grupo de investigación en redes, información y distribución – grid de la universidad del quindío.” 2013.

C. M. Sanchez, “Analisis de aplicaciones interactivas en infraestructuras cloud,” 2010.

O. Kulkarni, S. Bagul, D. Gawali, and P. Swamy, “VIRTUALIZATION TECHNOLOGY : A LEADING EDGE,” vol. 2, no. April, pp. 272– 287, 2012.

A. Bingham, P. Borril, M. Buhr, P. Coffee, J. Parkinson, J. Tobolski, C. Whitney, and I. Wladawsky-Berger, “Cloud Computing,” 2013.

M. T. Jones, “Virtualización de aplicaciones , pasado y futuro,” 29- Jul-2011. [Online]. Available: http://www.ibm.com/developerworks/ ssa/linux/library/l-virtual-machine-architectures/. [Accessed: 01- May-2014].

G. J. Popek and R. P. Goldberg, “Formal requirements for virtualizable third generation architectures,” Commun. ACM, vol. 17, no. 7, pp. 412–421, Jul. 1974.

E. Eduardo, V. Fernández, and F. G. Montoya, Virtualización de servidores de telefonía IP en GNU / Linux. 2010.

P. Dwivedi, “Journal of Environmental Science , Computer Science and Engineering & Technology Application of Virtualization Technology in Networked Computing System,” vol. 3, no. 1, pp. 165–174, 2014.

J. Sahoo, S. Mohapatra, and R. Lath, “Virtualization: A Survey on Concepts, Taxonomy and Associated Security Issues,” 2010 Second Int. Conf. Comput. Netw. Technol., pp. 222–226, 2010.

J. Deng, J. Hu, and A. C. M. Liu, “Virtualization, Application Streaming & Private Cloud Computing In a Training Laboratory,” J. Softw., vol. 5, no. 11, pp. 1306–1313, Nov. 2010.

R. P. Padhy, M. R. Patra, and S. C. Satapathy, “Virtualization techniques & technologies: State-of-the-art,” J. Glob. Res. Comput. Sci., vol. 2, pp. 29–43, 2011.

P. Atelin and J. Dordoigne, Redes informáticas: conceptos fundamentales : normas, arquitectura, modelo OSI, TCP/IP, Ethernet, Wi-FI... 2006.

L. A. C. Moreno, “ESTUDIO DE VIRTUALIZACIÓN DE UN SISTEMA LEGADO EN UNA EMPRESA GUATEMALTECA,” Guatemala, 2009.

N. El-Khameesy and H. A. R. Mohamed, “A Proposed Virtualization Technique to Enhance IT Services,” Int. J. Inf. Technol. Comput. Sci., vol. 4, no. 12, pp. 21–30, Nov. 2012.

S. Huisman and M. Haverink, “2009 Application Virtualization Comparison Chart,” 2009.

R. Spruijt, “Application virtualization Smackdown,” no. December, 2013.

A. J. Zabalza-vívanco, R. Rio-belver, E. Cilleruelo-carrasco, and G. Gorechana-anacabe, “Beneficios del Cloud Computing para la Pequeña y Mediana Empresa,” DYNA, vol. 88, pp. 280–284, 2013.

PQR, “PQR,” 2014. [Online]. Available: http://www.pqr.com/.

G. Fortino, D. Parisi, V. Pirrone, and G. Di Fatta, “BodyCloud: A SaaS approach for community Body Sensor Networks,” Futur. Gener. Comput. Syst., vol. 35, pp. 62–79, Jun. 2014.

Y. E. Gelogo and H. Kim, “Mobile Integrated Enterprise Resource Planning System Architecture,” vol. 7, no. 3, pp. 379–388, 2014.

Published
2014-12-12
How to Cite
Candela Uribe, C., Sepúlveda Rodríguez, L., & Vanegas Neira, E. (2014). Characterization of solutions for virtualization applications: preliminary diffusion. Entre Ciencia E Ingeniería, 8(16), 72-82. Retrieved from https://revistas.ucp.edu.co/index.php/entrecienciaeingenieria/article/view/617
Issue
Vol 8 No 16 (2014)
Section
Artículos
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