A Concept for Interoperable IoT Intercloud Architectures

Philipp Grubitzsch, Thomas Springer, Tenshi Hara, Iris Braun, Alexander Schill

2017

Abstract

Cloud platforms have evolved over the last years as means to provide value-added services for Internet of Things (IoT) infrastructures, particularly smart home applications. From different use cases the necessity arises to connect IoT cloud solutions of different vendors. While some established platforms support an integration of other vendors’ systems into their own infrastructure, solutions to federate IoT cloud platforms can hardly be found. In this paper, we analyze existing IoT cloud platforms with respect to their similarities and derive a concept of an Intercloud Broker (IB) that enables the establishment of an IoT Intercloud to support interoperability of cloud-based IoT platforms from different vendors. To demonstrate the feasibility of our approach we evaluated the overhead introduced by the Intercloud Broker. As the results show, the IB can be implemented with minimal overhead in terms of throughput and delay even on commodity hardware.

References

1. Aazam, M., Huh, E. N., and St-Hilaire, M. (2016). Towards Media Inter-cloud Standardization Evaluating Impact of Cloud Storage Heterogeneity. Journal of Grid Comp., pages 1-19.
2. Botta, A., de Donato, W., Persico, V., and Pescapé, A. (2016). Integration of Cloud computing and Internet of Things: A survey. Future Generation Computer Systems, 56:684-700.
3. Cugola, G. and Margara, A. (2012). Processing flows of information: From data stream to complex event processing. ACM Computing Surveys (CSUR), 44(3):15.
4. Grubitzsch, P. (2015). Intercloud communication for valueadded smart home and smart grid services. In On the Move to Meaningful Internet Systems: OTM 2015 Workshops, pages 10-19. Springer.
5. Happ, D., Karowski, N., Menzel, T., Handziski, V., and Wolisz, A. (2017). Meeting iot platform requirements with open pub/sub solutions. Annals of Telecommunications, 72(1):41-52.
6. Kliem, A. (2015). Cooperative Device Cloud - Provisioning Embedded Devices in Ubiquitous Environments. Dissertation, Technische Universität Berlin.
7. Laukkarinen, T., Suhonen, J., and Hännikäinen, M. (2012). A survey of wireless sensor network abstraction for application development. International Journal of Distributed Sensor Networks, 2012.
8. Liu, F., Tong, J., Mao, J., Bohn, R., Messina, J., Badger, L., and Leaf, D. (2011). Nist cloud computing reference architecture. NIST special publication, 500(2011):292.
9. Mühl, G., Fiege, L., and Pietzuch, P. (2006). Distributed event-based systems. Springer Science & Business Media.
10. Toosi, A. N., Calheiros, R. N., and Buyya, R. (2014). Interconnected Cloud Computing Environments. ACM Computing Surveys, 47(1):1-47.

Paper Citation

in Harvard Style

Grubitzsch P., Springer T., Hara T., Braun I. and Schill A. (2017). A Concept for Interoperable IoT Intercloud Architectures . In Proceedings of the 7th International Conference on Cloud Computing and Services Science - Volume 1: CLOSER, ISBN 978-989-758-243-1, pages 704-713. DOI: 10.5220/0006375107040713

in Bibtex Style

@conference{closer17,
author={Philipp Grubitzsch and Thomas Springer and Tenshi Hara and Iris Braun and Alexander Schill},
title={A Concept for Interoperable IoT Intercloud Architectures},
booktitle={Proceedings of the 7th International Conference on Cloud Computing and Services Science - Volume 1: CLOSER,},
year={2017},
pages={704-713},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0006375107040713},
isbn={978-989-758-243-1},
}

in EndNote Style

TY - CONF
JO - Proceedings of the 7th International Conference on Cloud Computing and Services Science - Volume 1: CLOSER,
TI - A Concept for Interoperable IoT Intercloud Architectures
SN - 978-989-758-243-1
AU - Grubitzsch P.
AU - Springer T.
AU - Hara T.
AU - Braun I.
AU - Schill A.
PY - 2017
SP - 704
EP - 713
DO - 10.5220/0006375107040713