Towards an interoperability certification method for semantic federated experimental IoT testbeds
Towards an interoperability certification method for semantic federated experimental IoT testbeds
IoT deployments and then related experiments tend to be highly heterogeneous leading to fragmented and non-interoperable silo solutions. Yet there is a growing need to interconnect such experiments to create rich infrastructures that will underpin the next generation of cross sector IoT applications in particular as using massive number of data. While research have been carried out for IoT test beds and interoperability for some infrastructures less has been done on the data. In this paper, we present the first step of the FIESTA certification method for federated semantic IoT test bed, which provides stakeholders with the means of assessing the interoperability of a given IoT testbed and how it can be federated with other ones to create large facility for experimenter. Focus is given on data and semantic context of the test beds and how they can interoperate together for larger experiments with data.
103-113
Zhao, Mengxuan
63ee1e41-58b2-4361-b4ea-24f10fed7c3d
Kefalakis, Nikos
c39943fe-5cfb-4bfc-9bf1-8bac07e69a57
Grace, Paul
b48ef8f2-b116-48ce-b774-4d43808cc02f
Soldatos, John
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Le-Gall, Franck
cf8c33e8-030c-4f07-bd86-65fa8e7d305e
Cousin, Phillippe
0341c2c5-2bd8-456c-9bbe-7159b3ca5335
January 2017
Zhao, Mengxuan
63ee1e41-58b2-4361-b4ea-24f10fed7c3d
Kefalakis, Nikos
c39943fe-5cfb-4bfc-9bf1-8bac07e69a57
Grace, Paul
b48ef8f2-b116-48ce-b774-4d43808cc02f
Soldatos, John
b5b19ab7-4bb0-4779-b969-beffdf0491d4
Le-Gall, Franck
cf8c33e8-030c-4f07-bd86-65fa8e7d305e
Cousin, Phillippe
0341c2c5-2bd8-456c-9bbe-7159b3ca5335
Zhao, Mengxuan, Kefalakis, Nikos, Grace, Paul, Soldatos, John, Le-Gall, Franck and Cousin, Phillippe
(2017)
Towards an interoperability certification method for semantic federated experimental IoT testbeds.
Guo, S, Wei, G, Xiang, Y and Lorenz, P
(eds.)
In Testbeds and Research Infrastructures for the Development of Networks and Communities. TridentCom 2016.
vol. 177,
Springer Cham.
.
(doi:10.1007/978-3-319-49580-4_10).
Record type:
Conference or Workshop Item
(Paper)
Abstract
IoT deployments and then related experiments tend to be highly heterogeneous leading to fragmented and non-interoperable silo solutions. Yet there is a growing need to interconnect such experiments to create rich infrastructures that will underpin the next generation of cross sector IoT applications in particular as using massive number of data. While research have been carried out for IoT test beds and interoperability for some infrastructures less has been done on the data. In this paper, we present the first step of the FIESTA certification method for federated semantic IoT test bed, which provides stakeholders with the means of assessing the interoperability of a given IoT testbed and how it can be federated with other ones to create large facility for experimenter. Focus is given on data and semantic context of the test beds and how they can interoperate together for larger experiments with data.
Text
394825.pdf
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More information
Accepted/In Press date: 1 May 2016
e-pub ahead of print date: 24 November 2016
Published date: January 2017
Venue - Dates:
TRIDENTCOM 2016, Hangzhou, China, 2016-06-14 - 2016-06-15
Organisations:
IT Innovation
Identifiers
Local EPrints ID: 394825
URI: http://eprints.soton.ac.uk/id/eprint/394825
PURE UUID: c9ab6ed3-7d1e-4a7d-b35d-79be2c85ba7b
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Date deposited: 03 Jun 2016 15:44
Last modified: 15 Mar 2024 21:55
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Contributors
Author:
Mengxuan Zhao
Author:
Nikos Kefalakis
Author:
Paul Grace
Author:
John Soldatos
Author:
Franck Le-Gall
Author:
Phillippe Cousin
Editor:
S Guo
Editor:
G Wei
Editor:
Y Xiang
Editor:
P Lorenz
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