Design of a microkernelbased services manager for IoT with isolated processing

Article Sidebar

PDF HTML (Español (España))
Published: nov. 28, 2022
DOI: https://doi.org/10.18845/tm.v35i9.6492
Keywords:
Internet of things, scheduling algorithms, protocols, high-performance computing, web services, distributed computing

Main Article Content

Instituto Tecnológico de Costa Rica
https://orcid.org/0000-0002-2924-7037
Instituto Tecnológico de Costa Rica
https://orcid.org/0000-0002-3263-7853

Abstract

The development of projects related to the Internet of Things has generated a significant impact on the growth of the software industry. Although there are several alternatives to their development, users are limited by inherent factors, such as vendor lock-in, software development flexibility, and security. This article shows a platform design that provides a deployment and management system for IoT projects avoiding some of the limitations of the current tools, such as vendor lockin and limitations in the development technologies.

Article Details

How to Cite
Jose Antonio, & Luis G. (2022). Design of a microkernelbased services manager for IoT with isolated processing. Tecnología En Marcha Journal, 35(9), Pág. 46–52. https://doi.org/10.18845/tm.v35i9.6492
Issue
2022: Vol. 35 special issue. IEEE International Conference on Bioinspired Processing
Section
Artículo científico
Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Los autores conservan los derechos de autor y ceden a la revista el derecho de la primera publicación  y pueda editarlo, reproducirlo, distribuirlo, exhibirlo y comunicarlo en el país y en el extranjero mediante medios impresos y electrónicos.  Asimismo, asumen el compromiso sobre cualquier litigio o reclamación relacionada con derechos de propiedad intelectual, exonerando de responsabilidad a la Editorial Tecnológica de Costa Rica. Además, se establece que los autores pueden realizar otros acuerdos contractuales independientes y adicionales para la distribución no exclusiva de la versión del artículo publicado en esta revista (p. ej., incluirlo en un repositorio institucional o publicarlo en un libro) siempre que indiquen claramente que el trabajo se publicó por primera vez en esta revista.

References

G. McGrath and P. R. Brenner, “Serverless Computing: Design, Implementation, and Performance,” IEEE, vol. 37th, pp. 405-410, 2017.

J. Opara-Martins, R. Sahandi and F. Tian, “Critical review of vendor lock-in and its impact on adoption of cloud computing,” nternational Conference on Information Society, pp. 92-97, 2014.

J. Opara-Martins, R. Sahadi and F. Tian, “Critical analysis of vendor lock-in and its impact on cloud computing migration: a business perspective,” Journal of Cloud Computing, pp. 1-18, 2016.

A. Palade, A. Kazmi and S. Clarke, “An Evaluation of Open Source Serverless Computing Frameworks Support at the Edge,” 2019 IEEE World Congress on Services (SERVICES), pp. 206-211, 2019.

S. Sultan, I. Ahmad and T. Dimitriou, “Container security: Issues, challenges, and the road ahead,” IEEE Access, vol. 7, pp. 52976-52996, 2019.

A. S. Tanenbaum, Modern operating systems, Boston: Pearson, 2015.

ZeroMQ, “ZeroMQ,” 2021. [Online]. Available: https://zeromq.org/. [Accessed 2021].

“SingularityCE,” Sylabs, 2022. [Online]. Available: https://sylabs.io/singularity. [Accessed 2022].

R. Chard, T. J. Skluzacek, Z. Li, Y. Babuji, A. Woodard, B. Blaiszik, S. Tuecke, I. Foster and K. Chard, “Serverless Supercomputing: High Performance Function as a Service for Science,” 2019.

J. A. Ortega and L. León, “IoT Services Management System [Source Code],” 2022. [Online]. Available: https:// gitlab.com/klooid/isms/isms-kernel. [Accessed 2022].